diff --git a/staticdata/fsd_binary/dogmaattributes.0.json b/staticdata/fsd_binary/dogmaattributes.0.json
index 346672b78..f954dc2a6 100644
--- a/staticdata/fsd_binary/dogmaattributes.0.json
+++ b/staticdata/fsd_binary/dogmaattributes.0.json
@@ -10355,7 +10355,7 @@
"displayName_ru": "Метауровень",
"displayName_zh": "衍生等级",
"displayNameID": 233633,
- "displayWhenZero": 0,
+ "displayWhenZero": 1,
"highIsGood": 1,
"name": "metaLevelOld",
"published": 1,
diff --git a/staticdata/fsd_binary/groups.0.json b/staticdata/fsd_binary/groups.0.json
index 062a1e98f..13748822b 100644
--- a/staticdata/fsd_binary/groups.0.json
+++ b/staticdata/fsd_binary/groups.0.json
@@ -26819,7 +26819,7 @@
"groupName_fr": "Artefacts triglavian",
"groupName_it": "Triglavian Artifacts",
"groupName_ja": "トリグラビアンの遺物",
- "groupName_ko": "트라글라비안 유물",
+ "groupName_ko": "트리글라비안 유물",
"groupName_ru": "Артефакты Триглава",
"groupName_zh": "三神裔古物",
"groupNameID": 546328,
@@ -26838,7 +26838,7 @@
"groupName_fr": "Entités triglavian",
"groupName_it": "Triglavian Entities",
"groupName_ja": "トリグラビアンエンティティ",
- "groupName_ko": "트라글라비안 객체",
+ "groupName_ko": "트리글라비안 객체",
"groupName_ru": "Объекты Триглава",
"groupName_zh": "三神裔实体",
"groupNameID": 549007,
diff --git a/staticdata/fsd_binary/marketgroups.0.json b/staticdata/fsd_binary/marketgroups.0.json
index 14f8b9288..3b6d4b168 100644
--- a/staticdata/fsd_binary/marketgroups.0.json
+++ b/staticdata/fsd_binary/marketgroups.0.json
@@ -43936,7 +43936,7 @@
},
"2816": {
"hasTypes": 1,
- "iconID": 3010,
+ "iconID": 2703,
"name_de": "Compressor Blueprints",
"name_en-us": "Compressor Blueprints",
"name_es": "Compressor Blueprints",
@@ -43948,5 +43948,30 @@
"name_zh": "Compressor Blueprints",
"nameID": 595232,
"parentGroupID": 209
+ },
+ "2819": {
+ "description_de": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_en-us": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_es": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_fr": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_it": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_ja": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_ko": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_ru": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "description_zh": "Electronic Attack Frigates which have been offered to capsuleers on occasion for limited periods.",
+ "descriptionID": 596353,
+ "hasTypes": 1,
+ "iconID": 1443,
+ "name_de": "Special Edition Electronic Attack Frigates",
+ "name_en-us": "Special Edition Electronic Attack Frigates",
+ "name_es": "Special Edition Electronic Attack Frigates",
+ "name_fr": "Special Edition Electronic Attack Frigates",
+ "name_it": "Special Edition Electronic Attack Frigates",
+ "name_ja": "Special Edition Electronic Attack Frigates",
+ "name_ko": "Special Edition Electronic Attack Frigates",
+ "name_ru": "Special Edition Electronic Attack Frigates",
+ "name_zh": "Special Edition Electronic Attack Frigates",
+ "nameID": 596354,
+ "parentGroupID": 1612
}
}
\ No newline at end of file
diff --git a/staticdata/fsd_binary/typedogma.0.json b/staticdata/fsd_binary/typedogma.0.json
index 14eb4a6bc..1f8cf981a 100644
--- a/staticdata/fsd_binary/typedogma.0.json
+++ b/staticdata/fsd_binary/typedogma.0.json
@@ -17172,19 +17172,19 @@
},
{
"attributeID": 984,
- "value": -22.5
+ "value": -22.2222222222
},
{
"attributeID": 985,
- "value": -22.5
+ "value": -22.2222222222
},
{
"attributeID": 986,
- "value": -22.5
+ "value": -22.2222222222
},
{
"attributeID": 987,
- "value": -22.5
+ "value": -22.2222222222
},
{
"attributeID": 1180,
@@ -40142,6 +40142,10 @@
"attributeID": 1555,
"value": 50.0
},
+ {
+ "attributeID": 1646,
+ "value": 6000.0
+ },
{
"attributeID": 1653,
"value": 45000.0
@@ -44475,7 +44479,7 @@
},
{
"attributeID": 984,
- "value": -13.5
+ "value": -19.2
},
{
"attributeID": 985,
@@ -44778,7 +44782,7 @@
},
{
"attributeID": 984,
- "value": -18.0
+ "value": -21.6222222222
},
{
"attributeID": 985,
@@ -44848,7 +44852,7 @@
},
{
"attributeID": 984,
- "value": -23.76
+ "value": -24.5444444444
},
{
"attributeID": 985,
@@ -46738,7 +46742,7 @@
},
{
"attributeID": 985,
- "value": -13.5
+ "value": -19.2
},
{
"attributeID": 986,
@@ -46808,7 +46812,7 @@
},
{
"attributeID": 985,
- "value": -18.0
+ "value": -21.6222222222
},
{
"attributeID": 986,
@@ -46887,7 +46891,7 @@
},
{
"attributeID": 985,
- "value": -23.76
+ "value": -24.5444444444
},
{
"attributeID": 986,
@@ -47206,7 +47210,7 @@
},
{
"attributeID": 986,
- "value": -13.5
+ "value": -19.2
},
{
"attributeID": 987,
@@ -47276,7 +47280,7 @@
},
{
"attributeID": 986,
- "value": -18.0
+ "value": -21.6222222222
},
{
"attributeID": 987,
@@ -47355,7 +47359,7 @@
},
{
"attributeID": 986,
- "value": -23.76
+ "value": -24.5444444444
},
{
"attributeID": 987,
@@ -47442,7 +47446,7 @@
},
{
"attributeID": 987,
- "value": -13.5
+ "value": -19.2
}
],
"dogmaEffects": [
@@ -47512,7 +47516,7 @@
},
{
"attributeID": 987,
- "value": -18.0
+ "value": -21.6222222222
}
],
"dogmaEffects": [
@@ -47591,7 +47595,7 @@
},
{
"attributeID": 987,
- "value": -23.76
+ "value": -24.5444444444
}
],
"dogmaEffects": [
@@ -47662,19 +47666,19 @@
},
{
"attributeID": 984,
- "value": -6.3
+ "value": -8.746666666666666
},
{
"attributeID": 985,
- "value": -6.3
+ "value": -8.746666666666666
},
{
"attributeID": 986,
- "value": -6.3
+ "value": -8.746666666666666
},
{
"attributeID": 987,
- "value": -6.3
+ "value": -8.746666666666666
}
],
"dogmaEffects": [
@@ -47732,19 +47736,19 @@
},
{
"attributeID": 984,
- "value": -7.2
+ "value": -10.3822222222
},
{
"attributeID": 985,
- "value": -7.2
+ "value": -10.3822222222
},
{
"attributeID": 986,
- "value": -7.2
+ "value": -10.3822222222
},
{
"attributeID": 987,
- "value": -7.2
+ "value": -10.3822222222
}
],
"dogmaEffects": [
@@ -47811,19 +47815,19 @@
},
{
"attributeID": 984,
- "value": -13.82
+ "value": -13.6533333333
},
{
"attributeID": 985,
- "value": -13.82
+ "value": -13.6533333333
},
{
"attributeID": 986,
- "value": -13.82
+ "value": -13.6533333333
},
{
"attributeID": 987,
- "value": -13.82
+ "value": -13.6533333333
}
],
"dogmaEffects": [
@@ -54249,7 +54253,7 @@
},
{
"attributeID": 984,
- "value": -22.5
+ "value": -22.22222222222222
},
{
"attributeID": 985,
@@ -54331,7 +54335,7 @@
},
{
"attributeID": 987,
- "value": -22.5
+ "value": -22.22222222222222
}
],
"dogmaEffects": [
@@ -54397,7 +54401,7 @@
},
{
"attributeID": 986,
- "value": -22.5
+ "value": -22.22222222222222
},
{
"attributeID": 987,
@@ -54463,7 +54467,7 @@
},
{
"attributeID": 985,
- "value": -22.5
+ "value": -22.22222222222222
},
{
"attributeID": 986,
@@ -54529,7 +54533,7 @@
},
{
"attributeID": 984,
- "value": -29.25
+ "value": -28.8888888889
},
{
"attributeID": 985,
@@ -65501,19 +65505,19 @@
},
{
"attributeID": 984,
- "value": -33.75
+ "value": -33.3333333333
},
{
"attributeID": 985,
- "value": -33.75
+ "value": -33.3333333333
},
{
"attributeID": 986,
- "value": -33.75
+ "value": -33.3333333333
},
{
"attributeID": 987,
- "value": -33.75
+ "value": -33.3333333333
},
{
"attributeID": 1180,
@@ -76450,19 +76454,19 @@
},
{
"attributeID": 984,
- "value": -29.25
+ "value": -28.8888888889
},
{
"attributeID": 985,
- "value": -29.25
+ "value": -28.8888888889
},
{
"attributeID": 986,
- "value": -29.25
+ "value": -28.8888888889
},
{
"attributeID": 987,
- "value": -29.25
+ "value": -28.8888888889
},
{
"attributeID": 1180,
@@ -76596,7 +76600,7 @@
},
{
"attributeID": 985,
- "value": -45.0
+ "value": -44.4444444444
},
{
"attributeID": 986,
@@ -76699,7 +76703,7 @@
},
{
"attributeID": 986,
- "value": -45.0
+ "value": -44.4444444444
},
{
"attributeID": 987,
@@ -76790,7 +76794,7 @@
},
{
"attributeID": 984,
- "value": -45.0
+ "value": -44.4444444444
},
{
"attributeID": 985,
@@ -76901,7 +76905,7 @@
},
{
"attributeID": 987,
- "value": -45.0
+ "value": -44.4444444444
},
{
"attributeID": 1180,
@@ -76992,7 +76996,7 @@
},
{
"attributeID": 985,
- "value": -49.5
+ "value": -48.8888888889
},
{
"attributeID": 986,
@@ -77099,7 +77103,7 @@
},
{
"attributeID": 986,
- "value": -49.5
+ "value": -48.8888888889
},
{
"attributeID": 987,
@@ -77194,7 +77198,7 @@
},
{
"attributeID": 984,
- "value": -49.5
+ "value": -48.8888888889
},
{
"attributeID": 985,
@@ -77309,7 +77313,7 @@
},
{
"attributeID": 987,
- "value": -49.5
+ "value": -48.8888888889
},
{
"attributeID": 1180,
@@ -87875,7 +87879,7 @@
},
{
"attributeID": 985,
- "value": -29.25
+ "value": -28.8888888889
},
{
"attributeID": 986,
@@ -87954,7 +87958,7 @@
},
{
"attributeID": 985,
- "value": -33.75
+ "value": -33.3333333333
},
{
"attributeID": 986,
@@ -88129,7 +88133,7 @@
},
{
"attributeID": 987,
- "value": -29.25
+ "value": -28.8888888889
}
],
"dogmaEffects": [
@@ -88208,7 +88212,7 @@
},
{
"attributeID": 987,
- "value": -33.75
+ "value": -33.3333333333
}
],
"dogmaEffects": [
@@ -88379,7 +88383,7 @@
},
{
"attributeID": 986,
- "value": -29.25
+ "value": -28.8888888889
},
{
"attributeID": 987,
@@ -88458,7 +88462,7 @@
},
{
"attributeID": 986,
- "value": -33.75
+ "value": -33.3333333333
},
{
"attributeID": 987,
@@ -88633,7 +88637,7 @@
},
{
"attributeID": 984,
- "value": -33.75
+ "value": -33.3333333333
},
{
"attributeID": 985,
@@ -149160,6 +149164,10 @@
"attributeID": 566,
"value": 5.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 1.0
@@ -162089,19 +162097,19 @@
},
{
"attributeID": 984,
- "value": -36.56
+ "value": -37.4444444444
},
{
"attributeID": 985,
- "value": -36.56
+ "value": -37.4444444444
},
{
"attributeID": 986,
- "value": -36.56
+ "value": -37.4444444444
},
{
"attributeID": 987,
- "value": -36.56
+ "value": -37.4444444444
},
{
"attributeID": 1180,
@@ -162183,19 +162191,19 @@
},
{
"attributeID": 984,
- "value": -39.38
+ "value": -40.3333333333
},
{
"attributeID": 985,
- "value": -39.38
+ "value": -40.3333333333
},
{
"attributeID": 986,
- "value": -39.38
+ "value": -40.3333333333
},
{
"attributeID": 987,
- "value": -39.38
+ "value": -40.3333333333
},
{
"attributeID": 1180,
@@ -162277,19 +162285,19 @@
},
{
"attributeID": 984,
- "value": -42.19
+ "value": -41.6666666667
},
{
"attributeID": 985,
- "value": -42.19
+ "value": -41.6666666667
},
{
"attributeID": 986,
- "value": -42.19
+ "value": -41.6666666667
},
{
"attributeID": 987,
- "value": -42.19
+ "value": -41.6666666667
},
{
"attributeID": 1180,
@@ -162371,19 +162379,19 @@
},
{
"attributeID": 984,
- "value": -39.38
+ "value": -38.8888888889
},
{
"attributeID": 985,
- "value": -39.38
+ "value": -38.8888888889
},
{
"attributeID": 986,
- "value": -39.38
+ "value": -38.8888888889
},
{
"attributeID": 987,
- "value": -39.38
+ "value": -38.8888888889
},
{
"attributeID": 1180,
@@ -162465,19 +162473,19 @@
},
{
"attributeID": 984,
- "value": -36.56
+ "value": -36.1111111111
},
{
"attributeID": 985,
- "value": -36.56
+ "value": -36.1111111111
},
{
"attributeID": 986,
- "value": -36.56
+ "value": -36.1111111111
},
{
"attributeID": 987,
- "value": -36.56
+ "value": -36.1111111111
},
{
"attributeID": 1180,
@@ -224159,7 +224167,7 @@
},
{
"attributeID": 985,
- "value": -29.25
+ "value": -31.1111111111
},
{
"attributeID": 986,
@@ -224225,7 +224233,7 @@
},
{
"attributeID": 984,
- "value": -22.5
+ "value": -22.2222222222
},
{
"attributeID": 985,
@@ -224307,7 +224315,7 @@
},
{
"attributeID": 987,
- "value": -22.5
+ "value": -22.2222222222
}
],
"dogmaEffects": [
@@ -224377,7 +224385,7 @@
},
{
"attributeID": 987,
- "value": -29.25
+ "value": -31.1111111111
}
],
"dogmaEffects": [
@@ -224443,7 +224451,7 @@
},
{
"attributeID": 986,
- "value": -22.5
+ "value": -22.2222222222
},
{
"attributeID": 987,
@@ -224509,7 +224517,7 @@
},
{
"attributeID": 985,
- "value": -22.5
+ "value": -22.2222222222
},
{
"attributeID": 986,
@@ -224575,7 +224583,7 @@
},
{
"attributeID": 984,
- "value": -29.25
+ "value": -31.1111111111
},
{
"attributeID": 985,
@@ -224653,7 +224661,7 @@
},
{
"attributeID": 986,
- "value": -29.25
+ "value": -31.1111111111
},
{
"attributeID": 987,
@@ -224727,7 +224735,7 @@
},
{
"attributeID": 986,
- "value": -47.25
+ "value": -46.6666666667
},
{
"attributeID": 987,
@@ -224809,7 +224817,7 @@
},
{
"attributeID": 984,
- "value": -47.25
+ "value": -46.6666666667
},
{
"attributeID": 985,
@@ -224899,19 +224907,19 @@
},
{
"attributeID": 984,
- "value": -26.1
+ "value": -25.7777777778
},
{
"attributeID": 985,
- "value": -26.1
+ "value": -25.7777777778
},
{
"attributeID": 986,
- "value": -26.1
+ "value": -25.7777777778
},
{
"attributeID": 987,
- "value": -26.1
+ "value": -25.7777777778
},
{
"attributeID": 1180,
@@ -224993,7 +225001,7 @@
},
{
"attributeID": 985,
- "value": -47.25
+ "value": -46.6666666667
},
{
"attributeID": 986,
@@ -225091,7 +225099,7 @@
},
{
"attributeID": 987,
- "value": -47.25
+ "value": -46.6666666667
},
{
"attributeID": 1180,
@@ -228953,6 +228961,10 @@
"attributeID": 616,
"value": -20.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 848,
"value": -20.0
@@ -229035,6 +229047,10 @@
"attributeID": 548,
"value": 20.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 1.0
@@ -253068,6 +253084,10 @@
"attributeID": 616,
"value": -25.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 848,
"value": -25.0
@@ -253150,6 +253170,10 @@
"attributeID": 616,
"value": -30.0
},
+ {
+ "attributeID": 633,
+ "value": 6.0
+ },
{
"attributeID": 848,
"value": -30.0
@@ -253232,6 +253256,10 @@
"attributeID": 548,
"value": 25.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 1.0
@@ -253314,6 +253342,10 @@
"attributeID": 548,
"value": 30.0
},
+ {
+ "attributeID": 633,
+ "value": 6.0
+ },
{
"attributeID": 1087,
"value": 1.0
@@ -253396,6 +253428,10 @@
"attributeID": 349,
"value": 10.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 2.0
@@ -253478,6 +253514,10 @@
"attributeID": 349,
"value": 15.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 2.0
@@ -253560,6 +253600,10 @@
"attributeID": 349,
"value": 20.0
},
+ {
+ "attributeID": 633,
+ "value": 6.0
+ },
{
"attributeID": 1087,
"value": 2.0
@@ -299067,7 +299111,7 @@
},
{
"attributeID": 984,
- "value": -27.0
+ "value": -28.8888888889
},
{
"attributeID": 985,
@@ -299146,7 +299190,7 @@
},
{
"attributeID": 984,
- "value": -29.25
+ "value": -30.855555555555554
},
{
"attributeID": 985,
@@ -299225,7 +299269,7 @@
},
{
"attributeID": 984,
- "value": -33.75
+ "value": -34.5111111111
},
{
"attributeID": 985,
@@ -299312,7 +299356,7 @@
},
{
"attributeID": 985,
- "value": -27.0
+ "value": -28.8888888889
},
{
"attributeID": 986,
@@ -299391,7 +299435,7 @@
},
{
"attributeID": 985,
- "value": -29.25
+ "value": -30.855555555555554
},
{
"attributeID": 986,
@@ -299470,7 +299514,7 @@
},
{
"attributeID": 985,
- "value": -33.75
+ "value": -34.5111111111
},
{
"attributeID": 986,
@@ -299798,7 +299842,7 @@
},
{
"attributeID": 986,
- "value": -27.0
+ "value": -28.8888888889
},
{
"attributeID": 987,
@@ -299877,7 +299921,7 @@
},
{
"attributeID": 986,
- "value": -29.25
+ "value": -30.855555555555554
},
{
"attributeID": 987,
@@ -299956,7 +300000,7 @@
},
{
"attributeID": 986,
- "value": -33.75
+ "value": -34.5111111111
},
{
"attributeID": 987,
@@ -300043,7 +300087,7 @@
},
{
"attributeID": 987,
- "value": -27.0
+ "value": -28.8888888889
}
],
"dogmaEffects": [
@@ -300122,7 +300166,7 @@
},
{
"attributeID": 987,
- "value": -29.25
+ "value": -30.855555555555554
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index 4e8f7d7fe..054ca0f38 100644
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+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -307551,6 +307895,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -307585,6 +307933,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -307615,6 +307967,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -307649,6 +308005,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -307683,6 +308043,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -307717,6 +308081,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1079,
"value": 4.0
@@ -307751,6 +308119,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1079,
"value": 10.0
@@ -307785,6 +308157,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
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{
"attributeID": 994,
"value": -4.0
@@ -307831,6 +308207,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
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{
"attributeID": 994,
"value": -6.0
@@ -313694,6 +314074,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -313728,6 +314112,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -313762,6 +314150,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -313800,6 +314192,10 @@
"attributeID": 337,
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},
+ {
+ "attributeID": 633,
+ "value": 0.0
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{
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"value": 15.0
@@ -313834,6 +314230,10 @@
"attributeID": 337,
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},
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+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -313868,6 +314268,10 @@
"attributeID": 337,
"value": 10.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -313902,6 +314306,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -313936,6 +314344,10 @@
"attributeID": 330,
"value": 7200000.0
},
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+ "attributeID": 633,
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{
"attributeID": 1087,
"value": 15.0
@@ -313970,6 +314382,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -314004,6 +314420,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -314038,6 +314458,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -314072,6 +314496,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -314106,6 +314534,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -314140,6 +314572,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -314174,6 +314610,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -314204,6 +314644,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 767,
"value": 8.0
@@ -314238,6 +314682,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 767,
"value": 12.0
@@ -314272,6 +314720,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 767,
"value": 20.0
@@ -319196,6 +319648,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -319222,6 +319678,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -319248,6 +319708,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -319270,6 +319734,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319296,6 +319764,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319322,6 +319794,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319348,6 +319824,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 846,
"value": 5.0
@@ -319374,6 +319854,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 846,
"value": 10.0
@@ -319400,6 +319884,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 846,
"value": 15.0
@@ -319430,6 +319918,10 @@
"attributeID": 330,
"value": 3600000.0
},
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+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -319456,6 +319948,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -319482,6 +319978,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -319504,6 +320004,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319530,6 +320034,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319556,6 +320064,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319582,6 +320094,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -319608,6 +320124,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -319634,6 +320154,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -319660,6 +320184,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 973,
"value": -5.0
@@ -319686,6 +320214,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 973,
"value": -10.0
@@ -319712,6 +320244,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 973,
"value": -15.0
@@ -319742,6 +320278,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319768,6 +320308,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319794,6 +320338,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -319820,6 +320368,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -319854,6 +320406,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -319888,6 +320444,10 @@
"attributeID": 330,
"value": 3600000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -326348,6 +326908,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -326374,6 +326938,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
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+ "value": 3.0
+ },
{
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"value": 14.0
@@ -326400,6 +326968,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
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+ "value": 5.0
+ },
{
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"value": 14.0
@@ -326430,6 +327002,10 @@
"attributeID": 624,
"value": 12.0
},
+ {
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+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -326456,6 +327032,10 @@
"attributeID": 624,
"value": 18.0
},
+ {
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+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -326482,6 +327062,10 @@
"attributeID": 624,
"value": 30.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 14.0
@@ -326504,6 +327088,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -326530,6 +327118,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -326556,6 +327148,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -326582,6 +327178,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -326608,6 +327208,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -326634,6 +327238,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 15.0
@@ -326660,6 +327268,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 767,
"value": 6.0
@@ -326690,6 +327302,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 767,
"value": 9.0
@@ -326720,6 +327336,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 767,
"value": 15.0
@@ -326754,6 +327374,10 @@
"attributeID": 349,
"value": 6.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -326784,6 +327408,10 @@
"attributeID": 349,
"value": 9.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -326814,6 +327442,10 @@
"attributeID": 349,
"value": 15.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 16.0
@@ -326844,6 +327476,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
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+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -326874,6 +327510,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -326904,6 +327544,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -326930,6 +327574,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 0.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -326964,6 +327612,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 3.0
+ },
{
"attributeID": 1087,
"value": 17.0
@@ -326998,6 +327650,10 @@
"attributeID": 330,
"value": 7200000.0
},
+ {
+ "attributeID": 633,
+ "value": 5.0
+ },
{
"attributeID": 1087,
"value": 17.0
diff --git a/staticdata/fsd_binary/types.0.json b/staticdata/fsd_binary/types.0.json
index 2cfa7f9f9..fe302566f 100644
--- a/staticdata/fsd_binary/types.0.json
+++ b/staticdata/fsd_binary/types.0.json
@@ -76400,7 +76400,7 @@
"description_it": "Engineered as a supplement to its big brother the Cyclone, the Thrasher's tremendous turret capabilities and advanced tracking computers allow it to protect its larger counterpart from smaller, faster menaces.",
"description_ja": "シュラッシャーは、上位バージョンに相当するサイクロンを補完するために開発された。極めて優れたタレットと先進的なトラッキングコンピューターを装備し、サイクロンを高速小型艦の脅威から守る。",
"description_ko": "사이클론의 보좌함으로 설계된 쓰레셔는 강력한 터렛 체계 및 첨단 트래킹 컴퓨터를 탑재하여 자매선인 사이클론을 빠른 기동성을 보유한 소형 함급으로부터 적절하게 보호합니다.",
- "description_ru": "Thrasher был спроектирован как дополнение к Cyclone, и его мощные пусковые турели и усовершенствованный компьютер слежения позволяют ему успешно защищать своего большого брата от более мелких и быстрых врагов.",
+ "description_ru": "Thrasher был спроектирован как дополнение к Cyclone, и его мощным пусковые турели и усовершенствованный компьютер слежения позволяют ему успешно защищать своего большого брата от более мелких и быстрых врагов.",
"description_zh": "长尾鲛级的设计是对其兄长飓风级的补充,其强劲的炮台性能和先进的跟踪计算机使它能保护它巨大的兄长不受更小更快的敌船侵袭。",
"descriptionID": 94082,
"graphicID": 2390,
@@ -80015,6 +80015,7 @@
"isDynamicType": 0,
"marketGroupID": 2506,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -120277,6 +120278,7 @@
"iconID": 3210,
"marketGroupID": 2500,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -120310,6 +120312,7 @@
"iconID": 3215,
"marketGroupID": 2491,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -124399,6 +124402,7 @@
"iconID": 3210,
"marketGroupID": 2500,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -124432,6 +124436,7 @@
"iconID": 3210,
"marketGroupID": 2500,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -124465,6 +124470,7 @@
"iconID": 3215,
"marketGroupID": 2491,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -124498,6 +124504,7 @@
"iconID": 3215,
"marketGroupID": 2491,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -124531,6 +124538,7 @@
"iconID": 3216,
"marketGroupID": 2498,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -124564,6 +124572,7 @@
"iconID": 3216,
"marketGroupID": 2498,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -124597,6 +124606,7 @@
"iconID": 3216,
"marketGroupID": 2498,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -155568,10 +155578,10 @@
"basePrice": 50000000.0,
"capacity": 20000000.0,
"description_de": "Diese Struktur enthält die nötige Ausrüstung um verschiedene Erze und Eis-Rohstoffe zu komprimieren und dadurch den Transport durch das Universum zu erleichtern.\n\nDiese Anlage hat keine Einschränkungen bezüglich des Sicherheitsstatus und kann im Hoheitsgebiet der Imperien verankert werden.",
- "description_en-us": "This structure contains equipment needed to compress various ore and ice materials for easy transportation across the universe.\r\n\r\nThis array does not have a particular restriction on security level and may be anchored in Empire sovereign space.",
- "description_es": "This structure contains equipment needed to compress various ore and ice materials for easy transportation across the universe.\r\n\r\nThis array does not have a particular restriction on security level and may be anchored in Empire sovereign space.",
+ "description_en-us": "This structure has been automatically disabled by CONCORD to make way for newer replacement technology.",
+ "description_es": "This structure has been automatically disabled by CONCORD to make way for newer replacement technology.",
"description_fr": "Cette structure contient l'équipement nécessaire pour condenser les différents minerais et matériaux de glace afin de faciliter leur transport dans tout l'univers.\n\nCe module ne présente pas de restriction particulière concernant le niveau de sécurité, et peut être ancré dans l'espace souverain de l'Empire.",
- "description_it": "This structure contains equipment needed to compress various ore and ice materials for easy transportation across the universe.\r\n\r\nThis array does not have a particular restriction on security level and may be anchored in Empire sovereign space.",
+ "description_it": "This structure has been automatically disabled by CONCORD to make way for newer replacement technology.",
"description_ja": "この建造物には、宇宙内での輸送を簡便化するために、様々な鉱石とアイスを圧縮する装置が備えられている。\n\nこの施設にはセキュリティレベル制限は特になく、4大国家が領有権をもつ宙域に係留できる。",
"description_ko": "각종 광석 및 아이스를 압축하기 위한 시설로 부피를 줄여 운송을 편리하게 만듭니다.
지역 또는 시큐리티 레벨과 관계 없이 위치 고정이 가능합니다.",
"description_ru": "В этом блоке размещено оборудование, предназначенное для сжатия различных видов руды и льда в целях облегчения дальнейшей транспортировки груза.\n\nБлок не имеет ограничения по степени соответствия нормам КОНКОРДа, и может быть установлен в системах под юрисдикцией сверхдержав.",
@@ -210242,6 +210252,7 @@
"iconID": 3217,
"marketGroupID": 2494,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210275,6 +210286,7 @@
"iconID": 3217,
"marketGroupID": 2494,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210308,6 +210320,7 @@
"iconID": 3217,
"marketGroupID": 2494,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210341,6 +210354,7 @@
"iconID": 3213,
"marketGroupID": 2497,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210374,6 +210388,7 @@
"iconID": 3213,
"marketGroupID": 2497,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210407,6 +210422,7 @@
"iconID": 3213,
"marketGroupID": 2497,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210440,6 +210456,7 @@
"iconID": 3214,
"marketGroupID": 2493,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210473,6 +210490,7 @@
"iconID": 3214,
"marketGroupID": 2493,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210506,6 +210524,7 @@
"iconID": 3214,
"marketGroupID": 2493,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210539,6 +210558,7 @@
"iconID": 3212,
"marketGroupID": 2496,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210572,6 +210592,7 @@
"iconID": 3212,
"marketGroupID": 2496,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210605,6 +210626,7 @@
"iconID": 3212,
"marketGroupID": 2496,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210638,6 +210660,7 @@
"iconID": 3211,
"marketGroupID": 2492,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -210671,6 +210694,7 @@
"iconID": 3211,
"marketGroupID": 2492,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -230843,7 +230867,7 @@
"description_it": "Engineered as a supplement to its big brother the Cyclone, the Thrasher's tremendous turret capabilities and advanced tracking computers allow it to protect its larger counterpart from smaller, faster menaces.",
"description_ja": "シュラッシャーは、上位バージョンに相当するサイクロンを補完するために開発された。極めて優れたタレットと高性能なトラッキングコンピュータを装備し、Cyclonを高速小型艦の脅威から守る。",
"description_ko": "사이클론의 보좌함으로 설계된 쓰레셔는 강력한 터렛 체계 및 첨단 트래킹 컴퓨터를 탑재하여 자매선인 사이클론을 빠른 기동성을 보유한 소형 함급으로부터 적절하게 보호합니다.",
- "description_ru": "Эсминец типа «Трэшер» предназначен для сопровождения своего старшего брата, «Циклона». Благодаря мощные орудиям и усовершенствованному орудийному вычислителю он способен защищать более крупного компаньона от маленьких и юрких врагов.",
+ "description_ru": "Эсминец типа «Трэшер» предназначен для сопровождения своего старшего брата, «Циклона». Благодаря мощным орудиям и усовершенствованному орудийному вычислителю он способен защищать более крупного компаньона от маленьких и юрких врагов.",
"description_zh": "长尾鲛级的设计是对其兄长飓风级的补充,其强劲的炮台性能和先进的跟踪计算机使它能保护它巨大的兄长不受更小更快的敌船侵袭。",
"descriptionID": 93271,
"factionID": 500002,
@@ -309109,14 +309133,14 @@
"20280": {
"basePrice": 47022756.0,
"capacity": 0.0,
- "description_de": "Ein elektronisches Interface zur Anpassung und Steigerung der Belagerungsfähigkeiten von Dreadnoughts. Durch eine Reihe von Veränderungen des elektromagnetischen Polaritätsfeldes zweigt das Belagerungsmodul Energie aus den Antriebs- und Warp-Systemen des Schiffes ab. Die gewonnene zusätzliche Energie wird an die Angriffs- und Verteidigungssysteme weitergegeben. Dies führt zu einer gewaltigen Schadenssteigerung sowie weitaus höherer Selbstversorgung der Verteidigungssysteme. Die Verteidigungsvorteile umfassen eine bessere Effektivität bei der Selbstreparatur und den Schildboostern und eine erhöhte Resistenz gegen die meisten Formen der elektronischen Kriegsführung. Als Nebeneffekt des durch das Belagerungsmodul erzeugten Ionenfeldes sind Fernreparaturen und Energiespeichertransmissionen, die auf das Schiff selbst gerichtet sind, unwirksam, solange das Modul aktiv ist. Zusätzlich bringt das Fehlen von Energie für die Antriebssysteme mit sich, dass weder Standardantrieb noch Warpantrieb für das Schiff verfügbar sind und auch ein Andocken nicht möglich ist, bis der Belagerungsmodus verlassen wird. Hinweis: – Ein Belagerungsmodul benötigt Strontiumclathrat, um richtig zu funktionieren. – Boni auf die Dauer und Leistung von Schildboostern gelten nur für Booster der Capital-Klasse. – Boni auf die Dauer und Leistung von Panzerungsreparatursystemen gelten nur für Reparatursysteme der Capital-Klasse. – In Schiffe der Dreadnought-Klasse kann nur ein einziges Belagerungsmodul eingebaut werden. Die durch das Belagerungsmodul gewonnene Schildboost- und Panzerungsreparaturverstärkung unterliegt einem Abzug, wenn sie mit ähnlichen Modulen verwendet wird, die die gleichen Attribute auf dem Schiff betreffen.",
+ "description_de": "Ein elektronisches Interface zur Anpassung und Steigerung der Belagerungsfähigkeiten von Dreadnoughts. Durch eine Reihe von Veränderungen des elektromagnetischen Polaritätsfeldes zweigt das Belagerungsmodul Energie aus den Antriebs- und Warp-Systemen des Schiffes ab. Die gewonnene zusätzliche Energie wird an die Angriffs- und Verteidigungssysteme weitergegeben. \r\n\r\nDies führt zu einer gewaltigen Schadenssteigerung sowie weitaus höherer Selbstversorgung der Verteidigungssysteme. Die Verteidigungsvorteile umfassen eine bessere Effektivität bei der Selbstreparatur und den Schildboostern und eine erhöhte Resistenz gegen die meisten Formen der elektronischen Kriegsführung. Als Nebeneffekt des durch das Belagerungsmodul erzeugten Ionenfeldes sind Fernreparaturen und Energiespeichertransmissionen, die auf das Schiff selbst gerichtet sind, unwirksam, solange das Modul aktiv ist. Zusätzlich bringt das Fehlen von Energie für die Antriebssysteme mit sich, dass weder Standardantrieb noch Warpantrieb für das Schiff verfügbar sind und auch ein Andocken nicht möglich ist, bis der Belagerungsmodus verlassen wird. \r\n\r\nHinweis:\\xa0\r\n– Ein Belagerungsmodul benötigt Strontiumclathrat, um richtig zu funktionieren.\\xa0\r\n– Boni auf die Dauer und Leistung von Schildboostern gelten nur für Booster der Capital-Klasse.\\xa0\r\n– Boni auf die Dauer und Leistung von Panzerungsreparatursystemen gelten nur für Reparatursysteme der Capital-Klasse.\\xa0\r\n– In Schiffe der Dreadnought-Klasse kann nur ein einziges Belagerungsmodul eingebaut werden. Die durch das Belagerungsmodul gewonnene Schildboost- und Panzerungsreparaturverstärkung unterliegt einem Abzug, wenn sie mit ähnlichen Modulen verwendet wird, die die gleichen Attribute auf dem Schiff betreffen.",
"description_en-us": "An electronic interface designed to augment and enhance a dreadnought's siege warfare abilities. Through a series of electromagnetic polarity field shifts, the siege module diverts energy from the ship's propulsion and warp systems to lend additional power to its offensive and defensive capabilities.\r\n\r\nThis results in a tremendous increase in damage, as well as a greatly increased rate of defensive self-sustenance. Defensive benefits include improved self-repair and shield boosting effectiveness, as well as increased resistance to most forms of electronic warfare. As a side effect of the ionic field created by the siege module, beneficial remote repair and capacitor transfer effects are ineffective against the fitted ship while the module is active.\r\nIn addition, the lack of power to locomotion systems means that neither standard propulsion nor warp travel are available to the ship nor are you allowed to dock until out of siege mode.\r\n\r\nNotes: \r\n- A siege module requires Strontium clathrates to run and operate effectively. \r\n- Bonuses to the Shield Booster amount and duration are only applied to Capital sized boosters.\r\n- Bonuses to the Armor Repairer amount and duration are only applied to Capital sized repairers.\r\n- Only one siege module can be fitted to a dreadnought class ship. The increased shield boosting and armor repairing gained from the Siege Module is subject to a stacking penalty when used with other similar modules that affect the same attribute on the ship.",
"description_es": "An electronic interface designed to augment and enhance a dreadnought's siege warfare abilities. Through a series of electromagnetic polarity field shifts, the siege module diverts energy from the ship's propulsion and warp systems to lend additional power to its offensive and defensive capabilities.\r\n\r\nThis results in a tremendous increase in damage, as well as a greatly increased rate of defensive self-sustenance. Defensive benefits include improved self-repair and shield boosting effectiveness, as well as increased resistance to most forms of electronic warfare. As a side effect of the ionic field created by the siege module, beneficial remote repair and capacitor transfer effects are ineffective against the fitted ship while the module is active.\r\nIn addition, the lack of power to locomotion systems means that neither standard propulsion nor warp travel are available to the ship nor are you allowed to dock until out of siege mode.\r\n\r\nNotes: \r\n- A siege module requires Strontium clathrates to run and operate effectively. \r\n- Bonuses to the Shield Booster amount and duration are only applied to Capital sized boosters.\r\n- Bonuses to the Armor Repairer amount and duration are only applied to Capital sized repairers.\r\n- Only one siege module can be fitted to a dreadnought class ship. The increased shield boosting and armor repairing gained from the Siege Module is subject to a stacking penalty when used with other similar modules that affect the same attribute on the ship.",
- "description_fr": "Interface électronique conçue pour renforcer et améliorer les possibilités en matière de tactiques de siège d'un supercuirassé. Grâce à une série d'inversions de la polarité du champ électromagnétique, le module de siège redirige l'énergie affectée aux systèmes de propulsion et de warp du vaisseau vers ses capacités offensives et défensives. Le vaisseau est alors en mesure d'infliger de terribles dégâts et d'augmenter de façon exponentielle ses capacités autodéfensives. Les avantages de défense impliquent une amélioration de l'autoréparation et de l'efficacité des boosters de boucliers, ainsi qu'une augmentation de la résistance à la plupart des formes de guerre électronique. Le champ ionique créé par le module de siège a pour effet secondaire de rendre inefficaces la réparation à distance et le transfert de capaciteurs avec le vaisseau équipé, et ce tant que le module est actif. Le manque de puissance au niveau des systèmes de déplacement empêche tout vaisseau en mode siège d'utiliser ses systèmes de propulsion, de warp ou d'amarrage. Remarques : - Un module de siège nécessite des clathrates de strontium pour fonctionner efficacement. - Les bonus ayant un effet sur la quantité et la durée du booster de bouclier ne s'appliquent qu'aux boosters de taille capitale. - Les bonus ayant un effet sur la quantité et la durée du réparateur de blindage ne s'appliquent qu'aux réparateurs de taille capitale. - Un seul module de siège peut être équipé sur un vaisseau de classe supercuirassé. L'efficacité décuplée des réparateurs de blindage et des boosters de boucliers en siège subit une pénalité d'accumulation si le module de siège est utilisé avec d'autres modules modifiant le même attribut.",
+ "description_fr": "Interface électronique conçue pour renforcer et améliorer les possibilités en matière de tactiques de siège d'un supercuirassé. Grâce à une série d'inversions de la polarité du champ électromagnétique, le module de siège redirige l'énergie affectée aux systèmes de propulsion et de warp du vaisseau vers ses capacités offensives et défensives. \r\n\r\nLe vaisseau est alors en mesure d'infliger de terribles dégâts et d'augmenter de façon exponentielle ses capacités autodéfensives. Les avantages de défense impliquent une amélioration de l'autoréparation et de l'efficacité des boosters de boucliers, ainsi qu'une augmentation de la résistance à la plupart des formes de guerre électronique. Le champ ionique créé par le module de siège a pour effet secondaire de rendre inefficaces la réparation à distance et le transfert de capaciteurs avec le vaisseau équipé, et ce tant que le module est actif. Le manque de puissance au niveau des systèmes de déplacement empêche tout vaisseau en mode siège d'utiliser ses systèmes de propulsion, de warp ou d'amarrage. \r\n\r\nRemarques\\xa0: \r\n- Un module de siège nécessite des clathrates de strontium pour fonctionner efficacement. \r\n- Les bonus ayant un effet sur la quantité et la durée du booster de bouclier ne s'appliquent qu'aux boosters de taille capitale. \r\n- Les bonus ayant un effet sur la quantité et la durée du réparateur de blindage ne s'appliquent qu'aux réparateurs de taille capitale. \r\n- Un seul module de siège peut être équipé sur un vaisseau de classe supercuirassé. L'efficacité décuplée des réparateurs de blindage et des boosters de boucliers en siège subit une pénalité d'accumulation si le module de siège est utilisé avec d'autres modules modifiant le même attribut.",
"description_it": "An electronic interface designed to augment and enhance a dreadnought's siege warfare abilities. Through a series of electromagnetic polarity field shifts, the siege module diverts energy from the ship's propulsion and warp systems to lend additional power to its offensive and defensive capabilities.\r\n\r\nThis results in a tremendous increase in damage, as well as a greatly increased rate of defensive self-sustenance. Defensive benefits include improved self-repair and shield boosting effectiveness, as well as increased resistance to most forms of electronic warfare. As a side effect of the ionic field created by the siege module, beneficial remote repair and capacitor transfer effects are ineffective against the fitted ship while the module is active.\r\nIn addition, the lack of power to locomotion systems means that neither standard propulsion nor warp travel are available to the ship nor are you allowed to dock until out of siege mode.\r\n\r\nNotes: \r\n- A siege module requires Strontium clathrates to run and operate effectively. \r\n- Bonuses to the Shield Booster amount and duration are only applied to Capital sized boosters.\r\n- Bonuses to the Armor Repairer amount and duration are only applied to Capital sized repairers.\r\n- Only one siege module can be fitted to a dreadnought class ship. The increased shield boosting and armor repairing gained from the Siege Module is subject to a stacking penalty when used with other similar modules that affect the same attribute on the ship.",
- "description_ja": "攻城艦級の包囲戦能力を高める電子インターフェイス。連続的にシフトする極性電磁フィールドを介して、艦船の推進力装備システムおよびワープシステムのエネルギーを攻撃システムと防衛システムに転送する。\n\n\n\nこれにより、攻撃能力と防衛能力を飛躍的に向上させる。防衛面でのメリットとして、自己修復能力とシールドブースト効率が上昇し、またほとんどの電子戦に対する耐性が向上する。シージモジュールの生成するイオンフィールドの副作用として、モジュールの起動中は装着している艦船に対するリモートリペアおよびキャパシタ転送のプラス効果は無効化される。\n\nさらに、ロコモーションシステムの動力が足りないため、通常の航行やワープ航行は不可能となる。また、入港する際は、いったんシージモードを解除しなければならない。\n\n\n\n注: \n\n‐ シージモジュールを起動し効果的に作動させるためには、ストロンチウム化合物が必要。 \n\n‐ シールドブースターの量と有効期間に対するボーナスは主力艦級ブースターにのみ適用される。\n\n‐ アーマーリペアラの量と有効期間に対するボーナスは主力艦級リペアラにのみ適用される。\n\n- 攻城艦級の艦船に搭載できるシージモジュールは1基のみ。シージモジュールによるシールドブーストとアーマーリペアの量はスタッキングペナルティの対象になる。スタッキングペナルティは、同じ属性に影響するモジュール類を複数個、1隻の艦船に装備したときに発生する。",
+ "description_ja": "攻城艦級の包囲戦能力を高める電子インターフェイス。連続的にシフトする極性電磁フィールドを介して、艦船の推進力装備システムおよびワープシステムのエネルギーを攻撃システムと防衛システムに転送する。¶\r\n¶\r\nこれにより、攻撃能力と防衛能力を飛躍的に向上させる。防衛面でのメリットとして、自己修復能力とシールドブースト効率が上昇し、またほとんどの電子戦に対する耐性が向上する。シージモジュールの生成するイオンフィールドの副作用として、モジュールの起動中は装着している艦船に対するリモートリペアおよびキャパシタ転送のプラス効果は無効化される。¶\r\n¶\r\nさらに、ロコモーションシステムの動力が足りないため、通常の航行やワープ航行は不可能となる。また、入港する際は、いったんシージモードを解除しなければならない。¶\r\n¶\r\n注: ¶\r\n‐ シージモジュールを起動し効果的に作動させるためには、ストロンチウム化合物が必要。 ¶\r\n‐ シールドブースターの量と有効期間に対するボーナスは主力艦級ブースターにのみ適用される。¶\r\n‐ アーマーリペアラの量と有効期間に対するボーナスは主力艦級リペアラにのみ適用される。¶\r\n- 攻城艦級の艦船に搭載できるシージモジュールは1基のみ。シージモジュールによるシールドブーストとアーマーリペアの量はスタッキングペナルティの対象になる。スタッキングペナルティは、同じ属性に影響するモジュール類を複数個、1隻の艦船に装備したときに発生する。",
"description_ko": "드레드노트급 함선의 공성 능력 향상을 위해 설계된 전자 인터페이스입니다. EM 극성 필드의 변환을 통해 워프 시스템 및 추진 장치에서 발생하는 여분의 에너지를 공격력 또는 방어력으로 전환합니다.
해당 과정을 통해 함선의 공격력, 유지력, 그리고 방어력이 큰 폭으로 상승합니다. 실드 부스터 효과 증가, 개선된 자가수리 능력, 그리고 전자전 장비에 대한 전반적인 저항력이 상승합니다. 해당 모듈은 이온 필드를 전개하기 때문에 모듈 활성화 중 원격 수리 및 캐피시터 전송을 받을 수 없습니다.
추가로 시즈 모드 활성화 중에는 추진 시스템을 가동할 전력이 부족하여 이동, 워프, 그리고 도킹이 불가능합니다.
참고:
- 시즈모듈을 가동하려면 스트론튬 클라트레이트가 필요합니다.
- 실드 부스터의 지속시간 및 회복량 증가 효과는 캐피탈급 부스터에만 적용됩니다.
- 장갑수리 장치의 지속시간 및 회복량 증가 효과는 캐피탈급 수리장치에만 적용됩니다.
- 드레드노트급 함선에는 한 개의 시즈 모듈만 장착할 수 있습니다. 실드 부스트 또는 아머 수리 효과를 증가시켜주는 모듈을 추가로 장착할 경우 중첩 페널티가 부여됩니다.",
- "description_ru": "Электронный интерфейс, разработанный для повышения эффективности дредноута в осадной войне. Посредством поочерёдного смещения электромагнитных полей осадный модуль перенаправляет энергию из двигательных систем и варп-систем корабля, усиливая его защитные и атакующие свойства. В результате этого корабль не только наносит огромный урон, но и способен долгое время поддерживать собственную защиту. Эффективность ремонтных систем и усилителя щитов повышается — как и сопротивляемость воздействию большинства средств электронной борьбы. Однако есть и побочные эффекты: во время работы осадный модуль создаёт мощное ионное поле, не позволяющее выполнять удалённый ремонт оснащённого им корабля, а также проводить пополнение его накопителя. Кроме того, из-за нехватки мощности в двигательных системах обычное перемещение, равно как и варп-прыжки, недоступны в осадном режиме — даже в док встать не получится. Примечания: — Для работы осадного модуля требуются клатраты стронция. — Бонусы к эффективности и длительности действия модулей усиления щитов применимы только к кораблям флагманского класса. — Бонусы к эффективности и длительности действия установок ремонта брони применимы только к кораблям флагманского класса. — На дредноут можно установить только один осадный модуль. Эффекты осадного модуля, затрагивающие усиление щитов и ремонт брони, подвержены действию системы нарастающих штрафов, если этот модуль используется совместно с другими модулями, влияющими на те же характеристики корабля.",
+ "description_ru": "Электронный интерфейс, разработанный для повышения эффективности дредноута в осадной войне. Посредством поочерёдного смещения электромагнитных полей осадный модуль перенаправляет энергию из двигательных систем и варп-систем корабля, усиливая его защитные и атакующие свойства. \r\n\r\nВ результате этого корабль не только наносит огромный урон, но и способен долгое время поддерживать собственную защиту. Эффективность ремонтных систем и усилителя щитов повышается\\xa0— как и сопротивляемость воздействию большинства средств электронной борьбы. Однако есть и побочные эффекты: во время работы осадный модуль создаёт мощное ионное поле, не позволяющее выполнять удалённый ремонт оснащённого им корабля, а также проводить пополнение его накопителя. Кроме того, из-за нехватки мощности в двигательных системах обычное перемещение, равно как и варп-прыжки, недоступны в осадном режиме\\xa0 — даже в док встать не получится. \r\n\r\nПримечания: \r\n— Для работы осадного модуля требуются клатраты стронция. \r\n— Бонусы к эффективности и длительности действия модулей усиления щитов применимы только к кораблям флагманского класса. \r\n— Бонусы к эффективности и длительности действия установок ремонта брони применимы только к кораблям флагманского класса. \r\n— На дредноут можно установить только один осадный модуль. Эффекты осадного модуля, затрагивающие усиление щитов и ремонт брони, подвержены действию системы нарастающих штрафов, если этот модуль используется совместно с другими модулями, влияющими на те же характеристики корабля.",
"description_zh": "一种为扩大增强无畏舰会战攻击能力而设计的电子接口。通过一系列的电磁场磁极转换,会战模块能调拨飞船推进系统和跃迁系统的能量来增强进攻和防御能力。\n\n\n\n这不仅使飞船的伤害输出极大增强,也使飞船承受打击的能力提高不少。好处是防御上提升自身的维修和护盾回充效果,并能提升对大部分种类的电子战的抗性。但对离子力场也产生了副作用,远程维修和电容传输效果对激活该装备的舰船没有效果。\n\n另外,由于开启后造成的动力系统能量缺失,无论标准推进、停靠或跃迁都不能进行,除非飞船退出会战模式。\n\n\n\n注意: \n\n- 会战装备需要锶包合物提供能量才能有效运行。 \n\n- 护盾回充增量和持续时间的加成只对旗舰级护盾回充增量器生效。\n\n- 装甲维修量和持续时间的加成只对旗舰级装甲维修器生效。\n\n- 每艘无畏舰只能安装一个会战装备。与其它具有相似类型属性的装备一同使用会使从会战装备获得的护盾回充和装甲维修增量受到惩罚。",
"descriptionID": 91897,
"groupID": 515,
diff --git a/staticdata/fsd_binary/types.1.json b/staticdata/fsd_binary/types.1.json
index 16efe803b..e4c306461 100644
--- a/staticdata/fsd_binary/types.1.json
+++ b/staticdata/fsd_binary/types.1.json
@@ -101054,6 +101054,7 @@
"iconID": 3211,
"marketGroupID": 2492,
"mass": 1.0,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -174597,10 +174598,10 @@
"capacity": 40000.0,
"certificateTemplate": 142,
"description_de": "Konzept und Design der Rorqual von Outer Ring Excavations entstanden als Antwort auf die steigende Nachfrage nach großen Industrie-Schiffen für groß angelegte Bergbau-Operationen in unbewohnten Gebieten des Alls über einen längeren Zeitraum.\n\n\n\nAus diesem Grund liegt die größte Stärke der Rorqual in der Fähigkeit, Roherz in kleinere Partikel zu zerlegen als bisher möglich, ohne dabei ihre jeweilige charakteristische Molekularstruktur zu verändern. Das bedeutet, dass das Schiff enorme Mengen an verdichtetem Erz transportieren kann.\n\n\n\nAußerdem ist es möglich, einen Capital-Traktorstrahl in die Rorqual einzubauen, der das Einholen von Frachtcontainern auf viel größere Distanz und mit einer viel höheren Geschwindigkeit ermöglicht als mit kleineren Traktorstrahlen. Des Weiteren verfügt das Schiff über einen ansehnlichen Drohnenhangar, kann Sprungantriebe einsetzen und bietet genug Platz für eine Klonbucht. Die Kombination dieser Elemente macht die Rorqual zum Herzstück jeder Bergbau-Operation in den Tiefen des Alls.\n\n\n\nDa sie auf industrielle Operationen spezialisiert ist, kann ihr Wartungshangar nur Industrieschiffe, Bergbaubarkassen und deren Tech 2-Varianten aufnehmen",
- "description_en-us": "The Rorqual was conceived and designed by Outer Ring Excavations in response to a growing need for capital industry platforms with the ability to support and sustain large-scale mining operations in uninhabited areas of space.\r\n\r\nTo that end, the Rorqual's primary strength lies in its ability to grind raw ores into particles of smaller size than possible before, while still maintaining their distinctive molecular structure. This means the vessel is able to carry vast amounts of ore in compressed form.\r\n\r\nAdditionally, the Rorqual is able to fit a capital tractor beam unit, capable of pulling in cargo containers from far greater distances and at far greater speeds than smaller beams can. It also possesses a sizeable drone bay, jump drive capability and the capacity to fit a clone vat bay. This combination of elements makes the Rorqual the ideal nexus to build deep space mining operations around.\r\n\r\nDue to its specialization towards industrial operations, its ship maintenance bay is able to accommodate only industrial ships, mining barges and their tech 2 variants.",
- "description_es": "The Rorqual was conceived and designed by Outer Ring Excavations in response to a growing need for capital industry platforms with the ability to support and sustain large-scale mining operations in uninhabited areas of space.\r\n\r\nTo that end, the Rorqual's primary strength lies in its ability to grind raw ores into particles of smaller size than possible before, while still maintaining their distinctive molecular structure. This means the vessel is able to carry vast amounts of ore in compressed form.\r\n\r\nAdditionally, the Rorqual is able to fit a capital tractor beam unit, capable of pulling in cargo containers from far greater distances and at far greater speeds than smaller beams can. It also possesses a sizeable drone bay, jump drive capability and the capacity to fit a clone vat bay. This combination of elements makes the Rorqual the ideal nexus to build deep space mining operations around.\r\n\r\nDue to its specialization towards industrial operations, its ship maintenance bay is able to accommodate only industrial ships, mining barges and their tech 2 variants.",
+ "description_en-us": "The Rorqual was conceived and designed by Outer Ring Excavations in response to a growing need for capital industry platforms with the ability to support and sustain large-scale mining operations in uninhabited areas of space.\r\n\r\nThe Rorqual is notably capable of using a capital industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Rorqual able to use the powerful and logistically impressive capital compressors.\r\n\r\nAdditionally, the Rorqual is able to fit a capital tractor beam unit, capable of pulling in cargo containers from far greater distances and at far greater speeds than smaller beams can. It also possesses a sizeable drone bay, jump drive capability and the capacity to fit a clone vat bay. This combination of elements makes the Rorqual the ideal nexus to build deep space mining operations around.\r\n\r\nDue to its specialization towards industrial operations, its ship maintenance bay is able to accommodate only industrial ships, mining barges and their tech 2 variants.",
+ "description_es": "The Rorqual was conceived and designed by Outer Ring Excavations in response to a growing need for capital industry platforms with the ability to support and sustain large-scale mining operations in uninhabited areas of space.\r\n\r\nThe Rorqual is notably capable of using a capital industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Rorqual able to use the powerful and logistically impressive capital compressors.\r\n\r\nAdditionally, the Rorqual is able to fit a capital tractor beam unit, capable of pulling in cargo containers from far greater distances and at far greater speeds than smaller beams can. It also possesses a sizeable drone bay, jump drive capability and the capacity to fit a clone vat bay. This combination of elements makes the Rorqual the ideal nexus to build deep space mining operations around.\r\n\r\nDue to its specialization towards industrial operations, its ship maintenance bay is able to accommodate only industrial ships, mining barges and their tech 2 variants.",
"description_fr": "Le Rorqual a été conçu par Outer Ring Excavations afin de répondre au besoin croissant de plateformes industrielles capitales, capables de prendre en charge et de soutenir des opérations d'extraction minière à grande échelle dans les zones spatiales inhabitées.\n\n\n\nLes chaînes de retraitement du vaisseau embarquent une nouvelle technologie développée pour broyer le minerai brut en particules plus fines que tout autre processus, tout en préservant la structure moléculaire du matériau. Aussi les soutes colossales du Rorqual ont-elles été conçues pour transporter d'énormes quantités de minerai sous forme condensée.\n\n\n\nLe Rorqual peut en outre être équipé d'un rayon de tractage capital assez puissant pour remorquer des conteneurs de fret à des distances et à des vitesses inégalées. Il possède également une baie à drones substantielle, et des emplacements réservés à l'installation d'un propulseur interstellaire et d'une plateforme de clonage. Le Rorqual est le centre d'opérations idéal pour toute opération d'extraction minière en espace profond.\n\n\n\nPour répondre aux exigences des opérations industrielles, sa plateforme de maintenance de vaisseaux est entièrement consacrée aux vaisseaux industriels, aux barges d'extraction minière, et à leurs variantes de Tech II.",
- "description_it": "The Rorqual was conceived and designed by Outer Ring Excavations in response to a growing need for capital industry platforms with the ability to support and sustain large-scale mining operations in uninhabited areas of space.\r\n\r\nTo that end, the Rorqual's primary strength lies in its ability to grind raw ores into particles of smaller size than possible before, while still maintaining their distinctive molecular structure. This means the vessel is able to carry vast amounts of ore in compressed form.\r\n\r\nAdditionally, the Rorqual is able to fit a capital tractor beam unit, capable of pulling in cargo containers from far greater distances and at far greater speeds than smaller beams can. It also possesses a sizeable drone bay, jump drive capability and the capacity to fit a clone vat bay. This combination of elements makes the Rorqual the ideal nexus to build deep space mining operations around.\r\n\r\nDue to its specialization towards industrial operations, its ship maintenance bay is able to accommodate only industrial ships, mining barges and their tech 2 variants.",
+ "description_it": "The Rorqual was conceived and designed by Outer Ring Excavations in response to a growing need for capital industry platforms with the ability to support and sustain large-scale mining operations in uninhabited areas of space.\r\n\r\nThe Rorqual is notably capable of using a capital industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Rorqual able to use the powerful and logistically impressive capital compressors.\r\n\r\nAdditionally, the Rorqual is able to fit a capital tractor beam unit, capable of pulling in cargo containers from far greater distances and at far greater speeds than smaller beams can. It also possesses a sizeable drone bay, jump drive capability and the capacity to fit a clone vat bay. This combination of elements makes the Rorqual the ideal nexus to build deep space mining operations around.\r\n\r\nDue to its specialization towards industrial operations, its ship maintenance bay is able to accommodate only industrial ships, mining barges and their tech 2 variants.",
"description_ja": "ロークアルは人の住まない宙域での大規模な採掘作業が可能な大型工業用プラットフォームの需要の高まりに呼応して、アウターリング採掘調査が考案、設計した船。\r\n\nロークアルの最大の特徴は、未加工の鉱石を固有の分子構造を維持したまま、今までは不可能だった細かさの粒子に砕くことができるという点にある。それによって、この艦では鉱石を圧縮した状態で大量に運搬することが可能になった。\r\n\n更に、ロークアルはキャピタルトラクタービームユニットを搭載することができるため、極めて遠方のカーゴを小型のビームよりもはるかに高速で牽引することができる。また、この船にはかなりの大きさのドローンベイがあり、ジャンプドライブにも対応している上に、クローンバットベイを収容する能力もある。これらの要素を備えたロークアルは、深宇宙での採掘事業を確立する際にその中核を成す理想的な艦船であると言える。\r\n\n工業目的に特化しているため、艦船メンテナンスベイは輸送艦、採掘艦、およびこれらのT2艦のみを収容可能。",
"description_ko": "로퀄은 아우터링 채굴조합에서 설계한 함선으로 외우주에서도 대규모 채굴 작전을 진행할 수 있는 캐피탈 산업 플랫폼에 대한 수요를 충족하기 위해 제작된 함선입니다.
로퀄은 채굴 시 각 광물만의 독특한 분자구조를 유지하면서 더 작은 단위로 분해할 수 있어 동일한 화물 공간에 더 많은 양의 압축된 광물을 저장하고 운반할 수 있습니다.
또한 캐피탈 트랙터 빔 장치를 장착할 수 있어 화물 컨테이너를 더욱 먼 거리에서 빠르게 당길 수 있습니다. 또한, 점프 드라이브가 가능하고 점프 클론 격납고도 장착 가능한 큰 규모의 드론 격납고가 탑재되어 있습니다. 종합적으로 평가하였을 때 로퀄만큼 대규모 채굴 작전을 효율적으로 실시할 수 있는 함선은 없습니다.
하지만 대부분의 기술이 채굴 분야에 집중되었기에 함선 정비 격납고에는 인더스트리얼, 채광선 그리고 전용 테크 II 함선만이 탑재 가능합니다.",
"description_ru": "Окраинная рудная экспедиция спроектировала и разработала промышленный корабль типа «Рорквал» в ответ на растущую необходимость в крупных промышленных платформах, способных проводить и поддерживать крупномасштабные буровые операции в ненаселенных районах космоса.\n\n\n\nГлавным преимуществом «Рорквала» является наличие на борту корабля оборудования для компактирования необогащенной руды, сохраняющего ее молекулярную структуру. Такая обработка руды позволяет существенно увеличить эффективность грузоперевозок.\n\n\n\nКроме того, «Рорквал» может быть оснащен сверхбольшими гравизахватами, притягивающими транспортные контейнеры с намного больших расстояний и с гораздо большей скоростью, нежели обычные гравизахваты. Корабль имеет на борту вместительный отсек для дронов, оборудован всем необходимым для совершения гиперпрыжков, может быть оснащен отсеком клонирования. Все это делает «Рорквал» идеальным помощником для буровых флотилий, работающих в дальнем космосе.\n\n\n\nПоскольку корабль предназначен для промышленных работ, его ремонтный отсек может принимать только грузовые корабли, буровые корабли и их модификации второй техкатегории.",
@@ -174956,10 +174957,10 @@
"basePrice": 15680470.0,
"capacity": 0.0,
"description_de": "Arkonor ist eines der seltensten und wertvollsten Erze im derzeit bekannten Universum. Ein großer Klumpen davon kann jemanden im Handumdrehen vom Tellerwäscher zum Millionär machen. Es verfügt über eine große Menge an Megacyte und enthält auch ein wenig Mexallon und Pyerite. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'arkonor est l'un des minerais bruts les plus rares et les plus recherchés de l'univers. Une simple pépite est synonyme de fortune. L'arkonor a la plus forte concentration en mégacyte de tous les minerais bruts. Il contient également du mexallon et de la pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "アーコナーは非常に希少で、既知宇宙の中で最も需要の高い鉱石の一つである。ひとかたまりのアーコナーがあれば、すぐに大富豪の仲間入りができると言われており、それだけに探している者も多い。メガサイトの含有率が高く、メクサロン、パイライトも成分に含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "우주에서 가장 희귀한 광석 중 하나로 시장에서 높은 시세를 형성하고 있습니다. 아르카노르 광맥을 발견할 경우 순식간에 돈방석 위에 앉을 수 있는 것으로 유명합니다. 아르카노르는 다량의 메가사이트와 평균적인 수준의 멕살론과 파이어라이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Арконор — одна из наиболее редких и востребованных руд в известной вселенной. Чтобы мгновенно разбогатеть, хватит одного крупного самородка. В нём содержится немалое количество мегацита, а также мексаллон и пирит. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -174975,10 +174976,10 @@
"radius": 1.0,
"typeID": 28367,
"typeName_de": "Compressed Arkonor",
- "typeName_en-us": "Obsolete Compressed Arkonor",
- "typeName_es": "Obsolete Compressed Arkonor",
+ "typeName_en-us": "Batch Compressed Arkonor",
+ "typeName_es": "Batch Compressed Arkonor",
"typeName_fr": "Arkonor compressé",
- "typeName_it": "Obsolete Compressed Arkonor",
+ "typeName_it": "Batch Compressed Arkonor",
"typeName_ja": "圧縮アーコナー",
"typeName_ko": "압축된 아르카노르",
"typeName_ru": "Compressed Arkonor",
@@ -175419,10 +175420,10 @@
"basePrice": 16120910.0,
"capacity": 0.0,
"description_de": "Auch wenn es nur die erfahrensten Bergleute erkennen können, gibt es bedeutende molekulare Unterschiede zwischen Arkonor und seinem blutroten Gegenstück. Sein Name ist auf die blutroten Adern zurückzuführen, die das Erz durchziehen. Bergleute, die sich die Mühe machen, nach dieser Seltenheit zu suchen, werden mit einer 5% höheren Mineralienausbeute als bei normalem Arkonor belohnt. Arkonor ist eines der seltensten und wertvollsten Erze im derzeit bekannten Universum. Ein großer Klumpen davon kann jemanden im Handumdrehen vom Tellerwäscher zum Millionär machen. Es verfügt über eine große Menge an Megacyte und enthält auch ein wenig Mexallon und Pyerite. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Si ce minerai passe inaperçu aux yeux du mineur moyen, il n'échappe pas au savoir-faire des mineurs les plus expérimentés. D'importantes déviations moléculaires distinguent l'arkonor classique de sa version pourpre, baptisée à l'aune des veines rouge sang qui la sillonnent. Les extracteurs qui trouveront cette pépite cachée en retireront un rendement minéral supérieur de 5 % à l'arkonor classique. L'arkonor est l'un des minerais bruts les plus rares et les plus recherchés de l'univers. Une simple pépite est synonyme de fortune. L'arkonor a la plus forte concentration en mégacyte de tous les minerais bruts. Il contient également du mexallon et de la pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "熟練した一流採掘者の目をもってしても見つけるのはかなり難しい。通常のアーコナーとは分子構造が大きく異なり、内部に赤い筋が走って血管のように見えることから、クリムゾンアーコナーと呼ばれる。このダイヤを塊の中から見つけ出した採鉱者は、通常のアーコナーよりも5%多い鉱石産出量が得られる。\r\n\nアーコナーは非常に希少で、既知宇宙の中で最も需要の高い鉱石の一つである。ひとかたまりのアーコナーがあれば、すぐに大富豪の仲間入りができると言われており、それだけに探している者も多い。メガサイトの含有率が高く、メクサロン、パイライトも成分に含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "혈관이 흐르는 듯한 모습의 광석으로 아르카노르와 분자적인 차별성을 띠고 있습니다. 매우 희귀한 광석이며 일반적인 아르카노르에 비해 산출량이 5% 가량 높아 상당한 가치를 지니고 있습니다.
우주에서 가장 희귀한 광석 중 하나로 시장에서 높은 시세를 형성하고 있습니다. 아르카노르 광맥을 발견할 경우 순식간에 돈방석 위에 앉을 수 있는 것으로 유명합니다. 아르카노르는 다량의 메가사이트와 평균적인 수준의 멕살론과 파이어라이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Между обычным и алым арконором, названным так из-за кроваво-красных прожилок, существуют значительные различия в молекулярной структуре, но заметить это под силу разве что самым опытным буровикам. Те, кому удастся отыскать это сокровище, смогут извлечь из него на 5% больше полезных минералов, чем из обычного арконора. Арконор — одна из наиболее редких и востребованных руд в известной вселенной. Чтобы мгновенно разбогатеть, хватит одного крупного самородка. В нём содержится немалое количество мегацита, а также мексаллон и пирит. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175439,10 +175440,10 @@
"radius": 1.0,
"typeID": 28385,
"typeName_de": "Compressed Crimson Arkonor",
- "typeName_en-us": "Obsolete Compressed Crimson Arkonor",
- "typeName_es": "Obsolete Compressed Crimson Arkonor",
+ "typeName_en-us": "Batch Compressed Crimson Arkonor",
+ "typeName_es": "Batch Compressed Crimson Arkonor",
"typeName_fr": "Arkonor pourpre compressé",
- "typeName_it": "Obsolete Compressed Crimson Arkonor",
+ "typeName_it": "Batch Compressed Crimson Arkonor",
"typeName_ja": "圧縮クリムゾンアーコナー",
"typeName_ko": "압축된 적색 아르카노르",
"typeName_ru": "Compressed Crimson Arkonor",
@@ -175486,10 +175487,10 @@
"basePrice": 16868580.0,
"capacity": 0.0,
"description_de": "Erstklassiges Arkonor gilt aufgrund seiner enormen Seltenheit als König der Erze. Mit einem um 10% höheren Ertrag als einfaches Arkonor, macht dieses Zeug Milliardäre aus denjenigen, die das Glück haben, über eine Erzader zu stolpern. Arkonor ist eines der seltensten und wertvollsten Erze im derzeit bekannten Universum. Ein großer Klumpen davon kann jemanden im Handumdrehen vom Tellerwäscher zum Millionär machen. Es verfügt über eine große Menge an Megacyte und enthält auch ein wenig Mexallon und Pyerite. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'arkonor de choix est la perle rare, le roi des minerais. D'un rendement supérieur de 10 % à celui de l'arkonor classique, ce matériau peut élever les mineurs assez chanceux pour découvrir un filon au rang de milliardaires. L'arkonor est l'un des minerais bruts les plus rares et les plus recherchés de l'univers. Une simple pépite est synonyme de fortune. L'arkonor a la plus forte concentration en mégacyte de tous les minerais bruts. Il contient également du mexallon et de la pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "プライムアーコナーは希少鉱石の中でも特に希少価値が高く、鉱石の王と称される。無機物産出量が通常のアーコナーより10%多い。プライムアーコナーの鉱脈を発見すれば、巨万の富を得ることも夢ではない。\r\n\nアーコナーは非常に希少で、既知宇宙の中で最も需要の高い鉱石の一つである。ひとかたまりのアーコナーがあれば、すぐに大富豪の仲間入りができると言われており、それだけに探している者も多い。メガサイトの含有率が高く、メクサロン、パイライトも成分に含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "광석의 왕이라는 별칭을 지닌 광석으로 일반적인 아르카노르에 비해 산출량이 10% 더 많습니다. 운이 좋아 광맥을 발견하면 순식간에 억만장자의 반열에 올라설 수 있습니다.
우주에서 가장 희귀한 광석 중 하나로 시장에서 높은 시세를 형성하고 있습니다. 아르카노르 광맥을 발견할 경우 순식간에 돈방석 위에 앉을 수 있는 것으로 유명합니다. 아르카노르는 다량의 메가사이트와 평균적인 수준의 멕살론과 파이어라이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Более ценной и редкой руды, чем первичный арконор, просто не существует. В нём на 10% больше полезных минералов, чем в обычном арконоре. Счастливчики, наткнувшиеся на залежи такой руды, в один миг становятся миллиардерами. Арконор — одна из наиболее редких и востребованных руд в известной вселенной. Чтобы мгновенно разбогатеть, хватит одного крупного самородка. В нём содержится немалое количество мегацита, а также мексаллон и пирит. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175505,10 +175506,10 @@
"radius": 1.0,
"typeID": 28387,
"typeName_de": "Compressed Prime Arkonor",
- "typeName_en-us": "Obsolete Compressed Prime Arkonor",
- "typeName_es": "Obsolete Compressed Prime Arkonor",
+ "typeName_en-us": "Batch Compressed Prime Arkonor",
+ "typeName_es": "Batch Compressed Prime Arkonor",
"typeName_fr": "Arkonor de choix compressé",
- "typeName_it": "Obsolete Compressed Prime Arkonor",
+ "typeName_it": "Batch Compressed Prime Arkonor",
"typeName_ja": "圧縮プライムアーコナー",
"typeName_ko": "압축된 검붉은 아르카노르",
"typeName_ru": "Compressed Prime Arkonor",
@@ -175520,10 +175521,10 @@
"basePrice": 10461840.0,
"capacity": 0.0,
"description_de": "Bistot ist ein sehr wertvolles Erz, da es große Mengen von Zydrine und Pyerite enthält. Es enthält außerdem eine beträchtliche Menge Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le bistot est un minerai très précieux contenant de grandes proportions de zydrine et de pyérite. Il renferme également une quantité honorable de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ザイドリンとパイライトを大量に含むビストットは、非常に価値が高い鉱石である。また、メクサロンも少なからず含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "비스토트는 희귀 광물인 자이드라인과 파이어라이트의 밀도가 높은 광석으로 다량의 멕살론 또한 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Ценность бистота весьма велика благодаря высокому содержанию зидрина и пирита. Кроме того, из него извлекают немалое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175539,10 +175540,10 @@
"radius": 1.0,
"typeID": 28388,
"typeName_de": "Compressed Bistot",
- "typeName_en-us": "Obsolete Compressed Bistot",
- "typeName_es": "Obsolete Compressed Bistot",
+ "typeName_en-us": "Batch Compressed Bistot",
+ "typeName_es": "Batch Compressed Bistot",
"typeName_fr": "Bistot compressé",
- "typeName_it": "Obsolete Compressed Bistot",
+ "typeName_it": "Batch Compressed Bistot",
"typeName_ja": "圧縮ビストット",
"typeName_ko": "압축된 비스토트",
"typeName_ru": "Compressed Bistot",
@@ -175554,10 +175555,10 @@
"basePrice": 11507000.0,
"capacity": 0.0,
"description_de": "Monoklines Bistot ist eine Bistotvariante mit einer etwas andersartigen Kristallstruktur. Es ist ein sehr gefragtes Mineral, da es eine 10% höhere Mineralausbeute liefert als sein einfaches Pendant. Bistot ist ein sehr wertvolles Erz, da es große Mengen von Zydrine und Pyerite enthält. Es enthält außerdem eine beträchtliche Menge Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le bistot monoclinique est un dérivé du bistot dont la structure cristalline diffère. Il est très recherché car son rendement est supérieur de 10 % à celui du bistot classique. Le bistot est un minerai très précieux contenant de grandes proportions de zydrine et de pyérite. Il renferme également une quantité honorable de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "単結晶系のビストットとは結晶構造がわずかに異なる。鉱石産出量が通常のビストットより10%高いため、探し求める者は多い。\r\n\nザイドリンとパイライトを大量に含むビストットは、非常に価値が高い鉱石である。また、メクサロンも少なからず含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "사각 비스토트는 비스토트의 한 종류로 크리스탈의 구조가 조금 다릅니다. 높은 수요를 자랑하는 광석으로 일반적인 비스토트에 비해 정제 산출량이 10% 더 많습니다.
비스토트는 희귀 광물인 자이드라인과 파이어라이트의 함유량이 매우 높습니다. 상당량의 멕살론 또한 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Моноклинный бистот — это разновидность бистота с несколько иной кристаллической решёткой. Он пользуется высоким спросом, поскольку содержит на 10% больше минералов, чем обычный бистот. Ценность бистота весьма велика благодаря высокому содержанию зидрина и пирита. Кроме того, из него извлекают немалое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175574,10 +175575,10 @@
"radius": 1.0,
"typeID": 28389,
"typeName_de": "Compressed Monoclinic Bistot",
- "typeName_en-us": "Obsolete Compressed Monoclinic Bistot",
- "typeName_es": "Obsolete Compressed Monoclinic Bistot",
+ "typeName_en-us": "Batch Compressed Monoclinic Bistot",
+ "typeName_es": "Batch Compressed Monoclinic Bistot",
"typeName_fr": "Bistot monoclinique compressé",
- "typeName_it": "Obsolete Compressed Monoclinic Bistot",
+ "typeName_it": "Batch Compressed Monoclinic Bistot",
"typeName_ja": "圧縮単斜晶ビストット",
"typeName_ko": "압축된 사각 비스토트",
"typeName_ru": "Compressed Monoclinic Bistot",
@@ -175589,10 +175590,10 @@
"basePrice": 11004920.0,
"capacity": 0.0,
"description_de": "Bistot mit einem triklinen Kristallsystem kommt unter natürlichen Bedingungen sehr selten vor, ist aber bei Bergleuten wegen seiner extrem hohen Konzentration an Mineralien sehr beliebt. Triklines Bistot liefert etwa 5% mehr Mineralien als die gleiche Menge normales Bistot. Bistot ist ein sehr wertvolles Erz, da es große Mengen von Zydrine und Pyerite enthält. Es enthält außerdem eine beträchtliche Menge Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Si le bistot à système de cristal triclinique est rarissime à l'état naturel, il reste très recherché par les mineurs pour sa concentration exceptionnelle en minéraux. Le rendement du bistot triclinique est environ 5 % supérieur à celui produit par un volume équivalent de bistot classique. Le bistot est un minerai très précieux contenant de grandes proportions de zydrine et de pyérite. Il renferme également une quantité honorable de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "三斜晶系の結晶構造を持つビストットは、自然条件の下ではごくまれにしか形成されないが、無機物を極めて高純度で含むため、採掘者にとっては憧れの対象である。三斜晶ビストットは標準的なビストットよりも鉱石産出量がおよそ5%多い。\r\n\nザイドリンとパイライトを大量に含むビストットは、非常に価値が高い鉱石である。また、メクサロンも少なからず含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "삼각 결정 형태를 지닌 비스토트로 자연적인 환경에서 드물게 생성됩니다. 광물 밀도가 높아 광부들 사이에서 인기가 높으며 일반적인 비스토트에 비해 미네랄 산출량이 5% 가량 더 높습니다.
비스토트는 희귀 광물인 자이드라인과 파이어라이트의 밀도가 높은 광석으로 다량의 멕살론 또한 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "В естественных условиях бистот с триклинной кристаллической решёткой встречается очень редко, но среди буровиков он пользуется огромным спросом из-за высочайшей концентрации полезных ископаемых. В триклинном бистоте примерно на 5% больше минералов, чем в обычном. Ценность бистота весьма велика благодаря высокому содержанию зидрина и пирита. Кроме того, из него извлекают немалое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175609,10 +175610,10 @@
"radius": 1.0,
"typeID": 28390,
"typeName_de": "Compressed Triclinic Bistot",
- "typeName_en-us": "Obsolete Compressed Triclinic Bistot",
- "typeName_es": "Obsolete Compressed Triclinic Bistot",
+ "typeName_en-us": "Batch Compressed Triclinic Bistot",
+ "typeName_es": "Batch Compressed Triclinic Bistot",
"typeName_fr": "Bistot triclinique compressé",
- "typeName_it": "Obsolete Compressed Triclinic Bistot",
+ "typeName_it": "Batch Compressed Triclinic Bistot",
"typeName_ja": "圧縮トリクリニックビストット",
"typeName_ko": "압축된 삼각 비스토트",
"typeName_ru": "Compressed Triclinic Bistot",
@@ -175624,10 +175625,10 @@
"basePrice": 7639790.0,
"capacity": 0.0,
"description_de": "Crokite ist ein sehr schweres Erz. Da es unter allen Erzarten des Universums die höchsten Anteile an Nocxium und Mexallon enthält, besteht ständig eine hohe Nachfrage. Wertvolle Ablagerungen von Pyerite können ebenfalls in diesem seltenen Erz gefunden werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "La crokite est un minerai brut très lourd et très prisé, car elle contient plus de nocxium et de mexallon qu'aucun autre minerai dans tout l'univers connu. Ce minerai rare contient également de précieux dépôts de pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ノキシウムとメクサロンの含有率が既知宇宙一であるクロカイトは、常に需要の絶えない、非常に重い金属である。さらにパイライトが埋蔵していることもあるため、希少度が高い。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "전 우주에서 녹시움과 멕살론 함량 비율이 가장 높은 광석으로 엄청난 수요를 자랑합니다. 녹시움 외에도 파이어라이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Крокит — очень тяжёлая руда. Спрос на него невероятно высок, поскольку он содержит столько ноксия и мексаллона, сколько не содержит ни одна другая руда в известной вселенной. Также из этой редкой руды можно извлечь достаточное количество пирита. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175643,10 +175644,10 @@
"radius": 1.0,
"typeID": 28391,
"typeName_de": "Compressed Crokite",
- "typeName_en-us": "Obsolete Compressed Crokite",
- "typeName_es": "Obsolete Compressed Crokite",
+ "typeName_en-us": "Batch Compressed Crokite",
+ "typeName_es": "Batch Compressed Crokite",
"typeName_fr": "Crokite compressée",
- "typeName_it": "Obsolete Compressed Crokite",
+ "typeName_it": "Batch Compressed Crokite",
"typeName_ja": "圧縮クロカイト",
"typeName_ko": "압축된 크로카이트",
"typeName_ru": "Compressed Crokite",
@@ -175658,10 +175659,10 @@
"basePrice": 8400440.0,
"capacity": 0.0,
"description_de": "Kristallines Crokite ist ein legendäres Material. Es ergibt nicht nur eine um 10% größere Mineralausbeute als herkömmliches Crokite, sondern glitzert auch wunderschön, wenn das richtige Licht auf Bruchstücke des Gesteins fällt. Dies macht kristallines Crokite zu einem beliebten Rohmaterial für die Schmuckindustrie. Crokite ist ein sehr schweres Erz. Da es unter allen Erzarten des Universums die höchsten Anteile an Nocxium und Mexallon enthält, besteht ständig eine hohe Nachfrage. Wertvolle Ablagerungen von Pyerite können ebenfalls in diesem seltenen Erz gefunden werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "La crokite cristalline est un minerai de légende. Non seulement elle présente un rendement supérieur de 10 % à celui de la crokite classique, mais elle brille également d'un éclat resplendissant idéal pour l'orfèvrerie. La crokite est un minerai brut très lourd et très prisé, car elle contient plus de nocxium et de mexallon qu'aucun autre minerai dans tout l'univers connu. Ce minerai rare contient également de précieux dépôts de pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "結晶性クロカイトは伝説の鉱石だ。通常のクロカイトに比べて無機物の含有量が10%高いだけでなく、光の加減によって美しく輝くことから、宝石の原石としても人気がある。\r\n\nノキシウムとメクサロンの含有率が既知宇宙一であるクロカイトは、常に需要の絶えない、非常に重い金属である。さらにパイライトが埋蔵していることもあるため、希少度が高い。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "일반적인 크로카이트에 비해 산출량이 10%가량 더 높으며 빛을 받았을 때의 영롱한 자태 덕분에 장신구로도 인기가 높습니다.
우주에서 녹시움과 멕살론 밀도가 가장 높은 광석으로 폭발적인 수요를 자랑합니다. 녹시움 외에도 파이어라이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Кристаллический крокит — руда воистину легендарная. В нём не только на 10% больше полезных минералов, чем в обычном кроките, он ещё и красиво сверкает при правильном освещении, потому его часто используют как сырьё для ювелирных изделий. Крокит — очень тяжёлая руда. Спрос на него невероятно высок, поскольку он содержит столько ноксия и мексаллона, сколько не содержит ни одна другая руда в известной вселенной. Также из этой редкой руды можно извлечь достаточное количество пирита. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175677,10 +175678,10 @@
"radius": 1.0,
"typeID": 28392,
"typeName_de": "Compressed Crystalline Crokite",
- "typeName_en-us": "Obsolete Compressed Crystalline Crokite",
- "typeName_es": "Obsolete Compressed Crystalline Crokite",
+ "typeName_en-us": "Batch Compressed Crystalline Crokite",
+ "typeName_es": "Batch Compressed Crystalline Crokite",
"typeName_fr": "Crokite cristalline compressée",
- "typeName_it": "Obsolete Compressed Crystalline Crokite",
+ "typeName_it": "Batch Compressed Crystalline Crokite",
"typeName_ja": "圧縮クリスタルインクロカイト",
"typeName_ko": "압축된 날카로운 크로카이트",
"typeName_ru": "Compressed Crystalline Crokite",
@@ -175692,10 +175693,10 @@
"basePrice": 8021400.0,
"capacity": 0.0,
"description_de": "In bestimmten Asteroidengürteln schlagen die Umgebungsbedingungen scharfe, gezackte Kanten in das Crokite-Gestein, was die Entstehung von scharfem Crokite zur Folge hat. Die höhere Dichte dieser Formationen führt zu einer 5% höheren Mineralausbeute als bei normalem Crokite. Crokite ist ein sehr schweres Erz. Da es unter allen Erzarten des Universums die höchsten Anteile an Nocxium und Mexallon enthält, besteht ständig eine hohe Nachfrage. Wertvolle Ablagerungen von Pyerite können ebenfalls in diesem seltenen Erz gefunden werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Dans certaines ceintures d'astéroïdes, les conditions environnementales érodent et dentellent les roches de crokite d'arêtes effilées et tranchantes pour former la crokite acérée. L'importante densité de ces formations rocheuses permet un rendement minéral supérieur de 5 % à la crokite classique. La crokite est un minerai brut très lourd et très prisé, car elle contient plus de nocxium et de mexallon qu'aucun autre minerai dans tout l'univers connu. Ce minerai rare contient également de précieux dépôts de pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "一部のアステロイドベルトで、環境条件が重なりクロカイトの岩塊が削れて鋭いノコギリの刃状になったものをシャープクロカイトと呼ぶ。岩塊の密度が高く、標準的なクロカイト鉱石よりも産出量が5%多い。\r\n\nノキシウムとメクサロンの含有率が既知宇宙一であるクロカイトは、常に需要の絶えない、非常に重い金属である。さらにパイライトが埋蔵していることもあるため、希少度が高い。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "특정 소행성 지대에서 환경 작용이 발생할 경우 날카로운 형태의 크로카이트가 생성됩니다. 이때 밀도 증가로 인해 일반적인 크로카이트보다 산출량이 5% 가량 더 높습니다.
전 우주에서 녹시움과 멕살론 함량 비율이 가장 높은 광석으로 엄청난 수요를 자랑합니다. 녹시움 외에도 파이어라이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "В некоторых поясах астероидов из-за условий окружающей среды вызывают на камнях крокита появляются острые зазубренные края. Так формируется острый крокит. Острый крокит обладает повышенной плотностью, потому в нём присутствует на 5% больше полезных минералов, чем в обычном кроките. Крокит — очень тяжёлая руда. Спрос на него невероятно высок, поскольку он содержит столько ноксия и мексаллона, сколько не содержит ни одна другая руда в известной вселенной. Также из этой редкой руды можно извлечь достаточное количество пирита. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175712,10 +175713,10 @@
"radius": 1.0,
"typeID": 28393,
"typeName_de": "Compressed Sharp Crokite",
- "typeName_en-us": "Obsolete Compressed Sharp Crokite",
- "typeName_es": "Obsolete Compressed Sharp Crokite",
+ "typeName_en-us": "Batch Compressed Sharp Crokite",
+ "typeName_es": "Batch Compressed Sharp Crokite",
"typeName_fr": "Crokite acérée compressée",
- "typeName_it": "Obsolete Compressed Sharp Crokite",
+ "typeName_it": "Batch Compressed Sharp Crokite",
"typeName_ja": "圧縮シャープクロカイト",
"typeName_ko": "압축된 뾰족한 크로카이트",
"typeName_ru": "Compressed Sharp Crokite",
@@ -175727,10 +175728,10 @@
"basePrice": 3842500.0,
"capacity": 0.0,
"description_de": "Das jahrelang als wertlos geltende dunkle Ochre wurde von den meisten Bergleuten ignoriert, bis es mit verbesserten Aufbereitungstechniken gelang, das in großen Mengen darin enthaltene Isogen und Mexallon zu extrahieren. Dunkles Ochre enthält auch verwertbare Mengen von Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'ochre foncé a longtemps été ignoré par les mineurs qui le considéraient comme un minerai sans intérêt, jusqu'à ce que l'amélioration des techniques de retraitement permette d'extraire l'énorme volume d'isogène et de mexallon qu'il contient. L'ochre foncé renferme également une quantité appréciable de nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ダークオークルは長年無価値な鉱石と見なされ、採掘師たちにも無視されていたが、再処理技術の進歩により大量のアイソゲンとメクサロンを抽出できるようになったために状況が変わった。ダークオークルには少なくない量のノキシウムも含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "다크 오커는 본래 광부들 사이에서 쓸모 없는 광석으로 여겨졌으나, 정제 기술이 발전하면서 다량의 이소젠과 멕살론을 추출할 수 있게 되었습니다. 다크 오커에는 상당량의 녹시움 또한 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Долгое время тёмная охра не интересовала буровиков: считалось, что она не обладает никакой ценностью. Но технологии переработки руды совершенствовались, и со временем из тёмной охры научились извлекать изоген и мексаллон, причём в огромных количествах. Тёмная охра также содержит ноксий в умеренных концентрациях. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175746,10 +175747,10 @@
"radius": 1.0,
"typeID": 28394,
"typeName_de": "Compressed Dark Ochre",
- "typeName_en-us": "Obsolete Compressed Dark Ochre",
- "typeName_es": "Obsolete Compressed Dark Ochre",
+ "typeName_en-us": "Batch Compressed Dark Ochre",
+ "typeName_es": "Batch Compressed Dark Ochre",
"typeName_fr": "Ochre foncé compressé",
- "typeName_it": "Obsolete Compressed Dark Ochre",
+ "typeName_it": "Batch Compressed Dark Ochre",
"typeName_ja": "圧縮ダークオークル",
"typeName_ko": "압축된 다크 오커",
"typeName_ru": "Compressed Dark Ochre",
@@ -175761,10 +175762,10 @@
"basePrice": 4226750.0,
"capacity": 0.0,
"description_de": "Obsidian-Ochre, ein extrem wertvolles Mitglied der Dunkles-Ochre-Familie, wurde erst vor einem Jahrzehnt entdeckt. Die glatte schwarze Oberfläche dieses Erzes kann Scannerwellen reflektieren, sodass Asteroiden aus Obsidian-Ochre so gut wie unsichtbar sind. Erst durch Fortschritte in der Scannertechnologie konnten diese Prachtstücke entdeckt werden. Dieses Erz liefert eine 10% höhere Mineralienausbeute, was den hohen Aufwand seiner Beschaffung mehr als wettmacht. Das jahrelang als wertlos geltende dunkle Ochre wurde von den meisten Bergleuten ignoriert, bis es mit verbesserten Aufbereitungstechniken gelang, das in großen Mengen darin enthaltene Isogen und Mexallon zu extrahieren. Dunkles Ochre enthält auch verwertbare Mengen von Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'ochre obsidien, un minerai extrêmement précieux de la famille des ochres foncés, a été découvert il y a à peine dix ans. Les astéroïdes d'ochre obsidien sont longtemps restés invisibles, car leur surface noire et lisse réfléchissait les ondes de balayage. Les progrès des technologies de scan ont finalement mis au jour ce merveilleux minerai. Le rendement minéral de ce minerai, supérieur de 10 %, récompensera les efforts de ceux qui se mettront à sa recherche. L'ochre foncé a longtemps été ignoré par les mineurs qui le considéraient comme un minerai sans intérêt, jusqu'à ce que l'amélioration des techniques de retraitement permette d'extraire l'énorme volume d'isogène et de mexallon qu'il contient. L'ochre foncé renferme également une quantité appréciable de nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ダークオークル族でも特に価値の高いオブシディアンオークルが初めて発見されたのは、わずか10年前のことである。その滑らかな黒色の表面はスキャン時の波を跳ね返すため、オブシディアンオークルを含むアステロイドは機材にはほぼ引っ掛からず、スキャン技術の向上によってようやくその存在が確認されたのである。この鉱石は通常よりも産出量が10%多く、探し出す手間は十分にあるといえる。\r\n\nダークオークルは長年無価値な鉱石と見なされ、採掘師たちにも無視されていたが、再処理技術の進歩により大量のアイソゲンとメクサロンを抽出できるようになったために状況が変わった。ダークオークルには少なくない量のノキシウムも含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "그림자 오커는 다크 오커와 유사한 성질을 지닌 광석으로 약 10년 전에 처음으로 발견됐습니다. 파동을 반사하는 매끄러운 표면으로 인해 탐지에서 벗어났으나 이후 기술의 발달로 인해 존재가 드러났습니다. 다른 광석에 비해 채굴 난이도는 높지만 일반적인 오커에 비해 산출량은 약 10% 더 높습니다.
다크 오커는 본래 광부들 사이에서 쓸모 없는 광석으로 여겨졌으나, 정제 기술이 발전하면서 다량의 이소젠과 멕살론을 추출할 수 있게 되었습니다. 다크 오커에는 상당량의 녹시움 또한 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Обсидиановая охра, ценнейшая разновидность тёмной охры, была открыта лишь десятилетие назад. Гладкая чёрная поверхность руды отражала волны, испускаемые разведаппаратурой, поэтому такие астероиды были по сути невидимы. Теперь, когда сканирующие устройства стали более совершенными, обсидиановую охру наконец удалось обнаружить. В этой руде на 10% больше полезных минералов, так что усилия по её поиску всегда окупаются сторицей. Долгое время тёмная охра не интересовала буровиков: считалось, что она не обладает никакой ценностью. Но технологии переработки руды совершенствовались, и со временем из тёмной охры научились извлекать изоген и мексаллон, причём в огромных количествах. Тёмная охра также содержит ноксий в умеренных концентрациях. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175781,10 +175782,10 @@
"radius": 1.0,
"typeID": 28395,
"typeName_de": "Compressed Obsidian Ochre",
- "typeName_en-us": "Obsolete Compressed Obsidian Ochre",
- "typeName_es": "Obsolete Compressed Obsidian Ochre",
+ "typeName_en-us": "Batch Compressed Obsidian Ochre",
+ "typeName_es": "Batch Compressed Obsidian Ochre",
"typeName_fr": "Ochre obsidien compressé",
- "typeName_it": "Obsolete Compressed Obsidian Ochre",
+ "typeName_it": "Batch Compressed Obsidian Ochre",
"typeName_ja": "圧縮オブシディアンオークル",
"typeName_ko": "압축된 그림자 오커",
"typeName_ru": "Compressed Obsidian Ochre",
@@ -175796,10 +175797,10 @@
"basePrice": 4039750.0,
"capacity": 0.0,
"description_de": "Die glänzenden schwarzen Klumpen von pechschwarzem Ochre sehen sehr schön aus und werden gelegentlich auch für Schmuckstücke verwendet. Allerdings ist es eher die 5% höhere Mineralausbeute, auf die Bergleute es abgesehen haben. Wie immer ist auch hier das gute Aussehen nur Beiwerk. Das jahrelang als wertlos geltende dunkle Ochre wurde von den meisten Bergleuten ignoriert, bis es mit verbesserten Aufbereitungstechniken gelang, das in großen Mengen darin enthaltene Isogen und Mexallon zu extrahieren. Dunkles Ochre enthält auch verwertbare Mengen von Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Les pépites noires et brillantes d'ochre onyx sont très jolies et servent parfois à la fabrication d'objets décoratifs. Mais leur réel intérêt aux yeux des mineurs est leur rendement minéral, supérieur de 5 %. Leur apparence est juste la cerise sur le gâteau. L'ochre foncé a longtemps été ignoré par les mineurs qui le considéraient comme un minerai sans intérêt, jusqu'à ce que l'amélioration des techniques de retraitement permette d'extraire l'énorme volume d'isogène et de mexallon qu'il contient. L'ochre foncé renferme également une quantité appréciable de nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "オニキスオークルは漆黒の光沢が極めて美しく、装飾品に使われることもある。しかし採掘者が本当に狙っているのはこの鉱物で5%増える産出量であり、オマケに外見も良い。\r\n\nダークオークルは長年無価値な鉱石と見なされ、採掘師たちにも無視されていたが、再処理技術の進歩により大量のアイソゲンとメクサロンを抽出できるようになったために状況が変わった。ダークオークルには少なくない量のノキシウムも含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "반짝이는 빛의 검은색 광석으로 아름다운 외관 덕분에 종종 장신구로 활용됩니다. 물론 심미적인 요소는 부가적인 가치일 뿐, 일반적인 오커에 비해 산출량이 5% 가량 높기 때문에 꾸준한 수요를 자랑합니다.
다크 오커는 본래 광부들 사이에서 쓸모 없는 광석으로 여겨졌으나, 정제 기술이 발전하면서 다량의 이소젠과 멕살론을 추출할 수 있게 되었습니다. 다크 오커에는 상당량의 녹시움 또한 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Блестящие чёрные самородки ониксовой охры эффектно выглядят и периодически используются при создании украшений. Однако буровиков больше прельщает тот факт, что в такой охре на 5% больше полезных минералов, чем в обычной. Это ещё раз подтверждает, что красота — всего лишь приятное дополнение. Долгое время тёмная охра не интересовала буровиков: считалось, что она не обладает никакой ценностью. Но технологии переработки руды совершенствовались, и со временем из тёмной охры научились извлекать изоген и мексаллон, причём в огромных количествах. Тёмная охра также содержит ноксий в умеренных концентрациях. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175816,10 +175817,10 @@
"radius": 1.0,
"typeID": 28396,
"typeName_de": "Compressed Onyx Ochre",
- "typeName_en-us": "Obsolete Compressed Onyx Ochre",
- "typeName_es": "Obsolete Compressed Onyx Ochre",
+ "typeName_en-us": "Batch Compressed Onyx Ochre",
+ "typeName_es": "Batch Compressed Onyx Ochre",
"typeName_fr": "Ochre onyx compressé",
- "typeName_it": "Obsolete Compressed Onyx Ochre",
+ "typeName_it": "Batch Compressed Onyx Ochre",
"typeName_ja": "圧縮オニキスオークル",
"typeName_ko": "압축된 어두운 오커",
"typeName_ru": "Compressed Onyx Ochre",
@@ -175831,10 +175832,10 @@
"basePrice": 3999260.0,
"capacity": 0.0,
"description_de": "Gneiss ist ein beliebtes Erz, da es erhebliche Mengen von drei der am meisten verwendeten Mineralien enthält, was seinen Nutzen erhöht. Es enthält ziemlich viel Mexallon und auch etwas Pyerite und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le gneiss est un minerai très demandé, car il contient des quantités importantes de trois minéraux très utilisés, ce qui augmente sa valeur utilitaire. Il contient beaucoup de mexallon, ainsi qu'un peu de pyérite et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "頻繁に利用される無機物3種類を大量に含んでいるナエスは、実用性に優れ人気の高い鉱石である。メクサロンが多分に含まれ、さらにある程度のパイライトやアイソゲンも入手できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "니스에는 뛰어난 효용성을 지닌 멕살론, 파이어라이트, 그리고 이소젠 등의 광물이 다량 함유되어 있어 높은 수요를 자랑합니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Гнейсс — популярная руда, так как в ней в больших количествах содержатся три самых востребованных промышленностью минерала, что расширяет спектр её применения. Гнейсс содержит немного мексаллона, а также пирит и изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175851,10 +175852,10 @@
"radius": 1.0,
"typeID": 28397,
"typeName_de": "Compressed Gneiss",
- "typeName_en-us": "Obsolete Compressed Gneiss",
- "typeName_es": "Obsolete Compressed Gneiss",
+ "typeName_en-us": "Batch Compressed Gneiss",
+ "typeName_es": "Batch Compressed Gneiss",
"typeName_fr": "Gneiss compressé",
- "typeName_it": "Obsolete Compressed Gneiss",
+ "typeName_it": "Batch Compressed Gneiss",
"typeName_ja": "圧縮ナエス",
"typeName_ko": "압축된 니스",
"typeName_ru": "Compressed Gneiss",
@@ -175866,10 +175867,10 @@
"basePrice": 4208400.0,
"capacity": 0.0,
"description_de": "Gneiss ist häufig das erste wertvolle Erz, das angehende Bergbauexperten finden. Die wertvollere Variante von Gneiss zu finden, die Schillerndes Gneiss genannt wird, bedeutet für diese Bergleute einen echten Glücksfall, da es 5% mehr Mineralien liefert. Gneiss ist ein beliebtes Erz, da es erhebliche Mengen von drei der am meisten verwendeten Mineralien enthält, was seinen Nutzen erhöht. Es enthält ziemlich viel Mexallon und auch etwas Pyerite und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le gneiss est souvent le premier minerai important que recherchent les mineurs en herbe. Les plus chanceux peuvent trouver du gneiss irisé, sa version supérieure, dont le rendement minéral est supérieur de 5 %. Le gneiss est un minerai très demandé, car il contient des quantités importantes de trois minéraux très utilisés, ce qui augmente sa valeur utilitaire. Il contient beaucoup de mexallon, ainsi qu'un peu de pyérite et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "腕を上げてきた若手の採掘者がよく最初に出会うメジャー級の鉱石がナエスだ。その中でも特に高値が付くのが虹色ナエスで、鉱石産出量が5%多いため、見つけられれば大手柄になるだろう。\r\n\n頻繁に利用される無機物3種類を大量に含んでいるナエスは、実用性に優れ人気の高い鉱石である。メクサロンが多分に含まれ、さらにある程度のパイライトやアイソゲンも入手できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "초보 광부들이 가장 먼저 접하는 광물 중 하나로 일반적인 니스에 비해 시장 가치가 높고 정제 산출량이 5% 더 많습니다.
니스에는 뛰어난 효용성을 지닌 멕살론, 파이어라이트, 그리고 이소젠 등의 광물이 다량 함유되어 있어 높은 수요를 자랑합니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Гнейсс зачастую становится первой ценной рудой, к добыче которой приступают начинающие буровики. Находка более дорогой разновидности гнейсса, известной как «радужный гнейсс», становится для таких пилотов настоящей удачей: радужный гнейсс приносит на 5% больше минералов. Гнейсс — популярная руда, так как в ней в больших количествах содержатся три самых востребованных промышленностью минерала, что расширяет спектр её применения. Гнейсс содержит немного мексаллона, а также пирит и изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175886,10 +175887,10 @@
"radius": 1.0,
"typeID": 28398,
"typeName_de": "Compressed Iridescent Gneiss",
- "typeName_en-us": "Obsolete Compressed Iridescent Gneiss",
- "typeName_es": "Obsolete Compressed Iridescent Gneiss",
+ "typeName_en-us": "Batch Compressed Iridescent Gneiss",
+ "typeName_es": "Batch Compressed Iridescent Gneiss",
"typeName_fr": "Gneiss irisé compressé",
- "typeName_it": "Obsolete Compressed Iridescent Gneiss",
+ "typeName_it": "Batch Compressed Iridescent Gneiss",
"typeName_ja": "圧縮虹色ナエス",
"typeName_ko": "압축된 이끼 니스",
"typeName_ru": "Compressed Iridescent Gneiss",
@@ -175901,10 +175902,10 @@
"basePrice": 4396720.0,
"capacity": 0.0,
"description_de": "Prismatisches Gneiss hat eine gebrochene Molekularstruktur, die sein einzigartiges Aussehen erklärt. Es ist das begehrteste Mitglied der Gneiss-Familie, da es eine um 10% höhere Mineralausbeute bietet als das normale Gneiss. Gneiss ist ein beliebtes Erz, da es erhebliche Mengen von drei der am meisten verwendeten Mineralien enthält, was seinen Nutzen erhöht. Es enthält ziemlich viel Mexallon und auch etwas Pyerite und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le gneiss prismatique présente une structure moléculaire fracturée qui explique son apparence unique. C'est le minerai le plus recherché de la catégorie des gneiss, car son rendement est supérieur de 10 % à celui des gneiss classiques. Le gneiss est un minerai très demandé, car il contient des quantités importantes de trois minéraux très utilisés, ce qui augmente sa valeur utilitaire. Il contient beaucoup de mexallon, ainsi qu'un peu de pyérite et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "プリズマティックナエスの分子構造は粉砕化されており、独特な外観を有している。一般的なナエスより収穫量が10%高いため、ナエス族の鉱石の中では最も人気が高い。\r\n\n頻繁に利用される無機物3種類を大量に含んでいるナエスは、実用性に優れ人気の高い鉱石である。メクサロンが多分に含まれ、さらにある程度のパイライトやアイソゲンも入手できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "녹빛 니스는 분자 구조가 분열된 광석으로 독특한 외관을 지니고 있습니다. 니스로 분류된 광석 중 가장 수요가 많으며 산출량의 경우 일반적인 니스에 비해 약 10% 가량 더 많습니다.
니스에는 뛰어난 효용성을 지닌 멕살론, 파이어라이트, 그리고 이소젠 등의 광물이 다량 함유되어 있어 높은 수요를 자랑합니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Призматический гнейсс имеет неровную молекулярную структуру, что объясняет его уникальный внешний вид. Это наиболее популярная разновидность гнейсса, так как она содержит на 10% больше полезных минералов, чем обычный гнейсс. Гнейсс пользуется большим спросом, поскольку эта руда содержит три широко используемых минерала: Гнейсс содержит немного мексаллона, а также пирит и изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175920,10 +175921,10 @@
"radius": 1.0,
"typeID": 28399,
"typeName_de": "Compressed Prismatic Gneiss",
- "typeName_en-us": "Obsolete Compressed Prismatic Gneiss",
- "typeName_es": "Obsolete Compressed Prismatic Gneiss",
+ "typeName_en-us": "Batch Compressed Prismatic Gneiss",
+ "typeName_es": "Batch Compressed Prismatic Gneiss",
"typeName_fr": "Gneiss prismatique compressé",
- "typeName_it": "Obsolete Compressed Prismatic Gneiss",
+ "typeName_it": "Batch Compressed Prismatic Gneiss",
"typeName_ja": "圧縮プリズマティックナエス",
"typeName_ko": "압축된 녹빛 니스",
"typeName_ru": "Compressed Prismatic Gneiss",
@@ -175935,10 +175936,10 @@
"basePrice": 3705600.0,
"capacity": 0.0,
"description_de": "Asteroiden, die dieses glänzende Erz enthalten, wurden durch extreme Hitze geformt, wie sie beispielsweise bei Supernovae entsteht. Das Resultat, bekannt als verglastes Hedbergite, ist eine konzentrierte Form von Hedbergite und hat eine um 10% erhöhte Mineralausbeute. Hedbergite ist begehrt wegen seines hohen Gehalts an Pyerite und Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Les astéroïdes contenant ce minerai brillant se forment dans des conditions de chaleur intense, comme une supernova. Ce phénomène a pour résultat de créer de l'hedbergite givrée, qui n'est autre qu'une forme concentrée d'hedbergite présentant un rendement 10 % supérieur. L'hedbergite est recherchée pour sa forte teneur en pyérite et en nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "この光り輝く鉱石を含むアステロイドは、超新星爆発などにより超高温にさらされて生じたものである。ガラスに覆われたような表面光沢(グレイズド)からグレイズドヘッドバーガイトと呼ばれ、通常のヘッドバーガイトより圧縮率が高いため、無機物を10%多く含む。\r\n\nヘッドバーガイトは、パイライトとノキシウムの含有密度が高いために人気がある。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "윤광 헤버자이트는 초신성과 같은 고온 환경에 노출되어 생성됩니다. 높은 압력에 노출되어 생성된 윤광 헤버자이트는 일반적인 광석에 비해 미네랄 산출량이 10% 가량 더 높습니다.
헤버자이트는 파이어라이트 및 녹시움 밀도가 높아 꾸준한 수요를 지니고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Астероиды, содержащие эту блестящую руду, формируются под воздействием сильнейшего выброса тепла — например, в результате рождения сверхновой. Благодаря этому появляется так называемый глянцевитый хедбергит, представляющий собой более концентрированную разновидность хедбергита, из которого можно получить на 10% больше материалов. Хедбергит ценится за высокое содержание пирита и ноксия. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175954,10 +175955,10 @@
"radius": 1.0,
"typeID": 28400,
"typeName_de": "Compressed Glazed Hedbergite",
- "typeName_en-us": "Obsolete Compressed Glazed Hedbergite",
- "typeName_es": "Obsolete Compressed Glazed Hedbergite",
+ "typeName_en-us": "Batch Compressed Glazed Hedbergite",
+ "typeName_es": "Batch Compressed Glazed Hedbergite",
"typeName_fr": "Hedbergite vitrifiée compressée",
- "typeName_it": "Obsolete Compressed Glazed Hedbergite",
+ "typeName_it": "Batch Compressed Glazed Hedbergite",
"typeName_ja": "圧縮グレイズドヘッドバーガイト",
"typeName_ko": "압축된 윤광 헤버자이트",
"typeName_ru": "Compressed Glazed Hedbergite",
@@ -175969,10 +175970,10 @@
"basePrice": 3374080.0,
"capacity": 0.0,
"description_de": "Hedbergite ist begehrt wegen seines hohen Gehalts an Pyerite und Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'hedbergite est recherchée pour sa forte teneur en pyérite et en nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ヘッドバーガイトは、パイライトとノキシウムの含有密度が高いために人気がある。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "헤버자이트는 파이어라이트 및 녹시움 밀도가 높아 꾸준한 수요를 지니고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Хедбергит ценится за высокое содержание пирита и ноксия. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -175988,10 +175989,10 @@
"radius": 1.0,
"typeID": 28401,
"typeName_de": "Compressed Hedbergite",
- "typeName_en-us": "Obsolete Compressed Hedbergite",
- "typeName_es": "Obsolete Compressed Hedbergite",
+ "typeName_en-us": "Batch Compressed Hedbergite",
+ "typeName_es": "Batch Compressed Hedbergite",
"typeName_fr": "Hedbergite compressée",
- "typeName_it": "Obsolete Compressed Hedbergite",
+ "typeName_it": "Batch Compressed Hedbergite",
"typeName_ja": "圧縮ヘッドバーガイト",
"typeName_ko": "압축된 헤버자이트",
"typeName_ru": "Compressed Hedbergite",
@@ -176003,10 +176004,10 @@
"basePrice": 3552000.0,
"capacity": 0.0,
"description_de": "Wenn Asteroiden Hedbergite enthalten und sehr nahe an Sonnen oder anderen Quellen intensiver Hitze vorbeikreisen, kann es passieren, dass das Hedbergite verglast. Es wird dann glasiges Hedbergite genannt und ist 5% ergiebiger als herkömmliches Hedbergite. Hedbergite ist begehrt wegen seines hohen Gehalts an Pyerite und Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Lorsqu'un astéroïde contenant de l'hedbergite passe près de sources de chaleur intense (un soleil, par exemple), le minerai peut alors se vitrifier. Cette opération crée de l'hedbergite vitrifiée, dont le rendement est 5 % supérieur à celui de l'hedbergite classique. L'hedbergite est recherchée pour sa forte teneur en pyérite et en nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "アステロイドが太陽などの超高温熱源の近くを通過すると、含まれていたヘッドバーガイトがガラス化することがある。これはガラス質ヘッドバーガイトと呼ばれ、通常のヘッドバーガイトより5%多く無機物を含む。\r\n\nヘッドバーガイトは、パイライトとノキシウムの含有密度が高いために人気がある。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "헤버자이트 소행성이 태양 또는 고열에 노출되면 수정화가 이루어집니다. 그 결과로 생성된 윤기나는 헤버자이트는 일반적인 헤버자이트보다 산출량이 5% 더 높습니다.
헤버자이트는 파이어라이트 및 녹시움 밀도가 높아 꾸준한 수요를 지니고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Когда астероид с большим содержанием хедбергита проходит рядом с солнцем или другим источником сильного тепла, хедбергит может остекленеть. В результате получается стекловидный хедбергит, при переработке которого можно добыть на 5% больше полезных материалов в сравнении с обычным хедбергитом. Хедбергит ценится за высокое содержание пирита и ноксия. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176022,10 +176023,10 @@
"radius": 1.0,
"typeID": 28402,
"typeName_de": "Compressed Vitric Hedbergite",
- "typeName_en-us": "Obsolete Compressed Vitric Hedbergite",
- "typeName_es": "Obsolete Compressed Vitric Hedbergite",
+ "typeName_en-us": "Batch Compressed Vitric Hedbergite",
+ "typeName_es": "Batch Compressed Vitric Hedbergite",
"typeName_fr": "Hedbergite vitreuse compressée",
- "typeName_it": "Obsolete Compressed Vitric Hedbergite",
+ "typeName_it": "Batch Compressed Vitric Hedbergite",
"typeName_ja": "圧縮ガラス質ヘッドバーガイト",
"typeName_ko": "압축된 윤기나는 헤버자이트",
"typeName_ru": "Compressed Vitric Hedbergite",
@@ -176037,10 +176038,10 @@
"basePrice": 3019920.0,
"capacity": 0.0,
"description_de": "Wegen seines hohen Anteils an Nocxium ist Hemorphite immer ein lohnender Fund. Es kommt oft genug vor, sodass auch unerfahrene Bergleute davon ausgehen können, es zufällig zu finden. Hemorphite enthält außerdem eine geringe Menge an Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Grâce à la grande proportion de nocxium qu'elle contient, l'hemorphite est un minerai intéressant à récupérer. Elle est suffisamment répandue pour que même des mineurs débutants puissent en trouver. L'hemorphite recèle également des filons d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ヘモファイトはノキシウムを大量に含むため、その発見は常に歓迎すべきものだ。広く分布している鉱石で、採掘の初心者でも十分に発見が可能だ。またヘモファイトには、ある程度のアイソゲンが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "헤모르파이트에는 녹시움이 다량 함유되어 있어 시장 가치가 높습니다. 또한 우주 전역에 넓게 분포되어 있어 초보자들도 쉽게 접근할 수 있습니다. 헤모르파이트는 평균적인 수준의 이소젠을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Благодаря большой концентрации ноксия хеморфит всегда будет ценной находкой. Это довольно распространённый вид руды, и отыскать её сможет даже начинающий буровик. Кроме того, хеморфит содержит изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176056,10 +176057,10 @@
"radius": 1.0,
"typeID": 28403,
"typeName_de": "Compressed Hemorphite",
- "typeName_en-us": "Obsolete Compressed Hemorphite",
- "typeName_es": "Obsolete Compressed Hemorphite",
+ "typeName_en-us": "Batch Compressed Hemorphite",
+ "typeName_es": "Batch Compressed Hemorphite",
"typeName_fr": "Hemorphite compressée",
- "typeName_it": "Obsolete Compressed Hemorphite",
+ "typeName_it": "Batch Compressed Hemorphite",
"typeName_ja": "圧縮ヘモファイト",
"typeName_ko": "압축된 헤모르파이트",
"typeName_ru": "Compressed Hemorphite",
@@ -176071,10 +176072,10 @@
"basePrice": 3323700.0,
"capacity": 0.0,
"description_de": "Hemorphite gibt es in vielen verschiedenen Farbvariationen. Interessanterweise gilt: Je bunter es ist, desto besser ist auch die Mineralausbeute. Glänzendes Hemorphite liefert einen um 10% höheren Ertrag als sein farbloses Pendant. Wegen seines hohen Anteils an Nocxium ist Hemorphite immer ein lohnender Fund. Es kommt oft genug vor, sodass auch unerfahrene Bergleute davon ausgehen können, es zufällig zu finden. Hemorphite enthält außerdem eine geringe Menge an Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'hemorphite arbore une myriade de teintes. Chose intéressante, plus elle est colorée, plus elle est riche en minerai. Le rendement de l'hemorphite rayonnante est supérieur de 10 % à celui de l'hemorphite standard. Grâce à la grande proportion de nocxium qu'elle contient, l'hemorphite est un minerai intéressant à récupérer. Elle est suffisamment répandue pour que même des mineurs débutants puissent en trouver. L'hemorphite recèle également des filons d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ヘモファイトには、様々な色のものがある。興味深いことに、色彩に富んでいるものの方が鉱石産出量も多い。レディアントヘモファイトは地味な通常型ヘモファイトよりも産出量が10%多い。\r\n\nヘモファイトはノキシウムを大量に含むため、その発見は常に歓迎すべきものだ。広く分布している鉱石で、採掘の初心者でも十分に発見が可能だ。またヘモファイトには、ある程度のアイソゲンが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "헤모르파이트는 다양한 색상을 지닌 광석으로 화려한 색을 자랑할수록 산출량이 더욱 높습니다. 프리즘 헤모르파이트는 일반적인 헤모르파이트에 비해 산출량이 10% 가량 더 높습니다.
헤모르파이트에는 녹시움이 다량 함유되어 있어 시장 가치가 높습니다. 또한 우주 전역에 넓게 분포되어 있어 초보자들도 쉽게 접근할 수 있습니다. 헤모르파이트는 평균적인 수준의 이소젠을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Хеморфит бывает самых разных оттенков. Интересно, что чем интенсивнее цвет этой руды, тем она ценнее. Блестящий хеморфит содержит на 10% больше полезных минералов, чем его более тусклый собрат. Благодаря большой концентрации ноксия хеморфит всегда будет ценной находкой. Это довольно распространённый вид руды, и отыскать её сможет даже начинающий буровик. Кроме того, хеморфит содержит изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176090,10 +176091,10 @@
"radius": 1.0,
"typeID": 28404,
"typeName_de": "Compressed Radiant Hemorphite",
- "typeName_en-us": "Obsolete Compressed Radiant Hemorphite",
- "typeName_es": "Obsolete Compressed Radiant Hemorphite",
+ "typeName_en-us": "Batch Compressed Radiant Hemorphite",
+ "typeName_es": "Batch Compressed Radiant Hemorphite",
"typeName_fr": "Hemorphite rayonnante compressée",
- "typeName_it": "Obsolete Compressed Radiant Hemorphite",
+ "typeName_it": "Batch Compressed Radiant Hemorphite",
"typeName_ja": "圧縮レディアントヘモファイト",
"typeName_ko": "압축된 프리즘 헤모르파이트",
"typeName_ru": "Compressed Radiant Hemorphite",
@@ -176105,10 +176106,10 @@
"basePrice": 3162220.0,
"capacity": 0.0,
"description_de": "Hemorphite gibt es in vielen verschiedenen Farbvariationen. Interessanterweise gilt: Je bunter es ist, desto besser ist auch die Mineralausbeute. Klares Hemorphite liefert einen um 5% höheren Ertrag als sein farbloses Pendant. Wegen seines hohen Anteils an Nocxium ist Hemorphite immer ein lohnender Fund. Es kommt oft genug vor, sodass auch unerfahrene Bergleute davon ausgehen können, es zufällig zu finden. Hemorphite enthält außerdem eine geringe Menge an Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'hemorphite arbore une myriade de teintes. Chose intéressante, plus elle est colorée, plus elle est riche en minerai. Le rendement de l'hemorphite vive est supérieur de 5 % à celui du minerai de l'hemorphite standard. Grâce à la grande proportion de nocxium qu'elle contient, l'hemorphite est un minerai intéressant à récupérer. Elle est suffisamment répandue pour que même des mineurs débutants puissent en trouver. L'hemorphite recèle également des filons d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ヘモファイトには、様々な色のものがある。興味深いことに、色彩に富んでいるものの方が鉱石産出量も多い。ビビッドヘモファイトは地味な通常型ヘモファイトよりも産出量が5%多い。\r\n\nヘモファイトはノキシウムを大量に含むため、その発見は常に歓迎すべきものだ。広く分布している鉱石で、採掘の初心者でも十分に発見が可能だ。またヘモファイトには、ある程度のアイソゲンが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "헤모르파이트는 다양한 색상을 지닌 광석으로 화려한 색을 자랑할수록 산출량이 더욱 높습니다. 다채로운 헤모르파이트는 일반적인 헤모르파이트에 비해 산출량이 5% 가량 더 높습니다.
헤모르파이트에는 녹시움이 다량 함유되어 있어 시장 가치가 높습니다. 또한 우주 전역에 넓게 분포되어 있어 초보자들도 쉽게 접근할 수 있습니다. 헤모르파이트는 평균적인 수준의 이소젠을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Хеморфит бывает самых разных оттенков. Интересно, что чем интенсивнее цвет этой руды, тем она ценнее. Яркий хеморфит содержит на 5% больше полезных минералов, чем его более тусклый собрат. Благодаря большой концентрации ноксия хеморфит всегда будет ценной находкой. Это довольно распространённый вид руды, и отыскать её сможет даже начинающий буровик. Кроме того, хеморфит содержит изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176124,10 +176125,10 @@
"radius": 1.0,
"typeID": 28405,
"typeName_de": "Compressed Vivid Hemorphite",
- "typeName_en-us": "Obsolete Compressed Vivid Hemorphite",
- "typeName_es": "Obsolete Compressed Vivid Hemorphite",
+ "typeName_en-us": "Batch Compressed Vivid Hemorphite",
+ "typeName_es": "Batch Compressed Vivid Hemorphite",
"typeName_fr": "Hemorphite vive compressée",
- "typeName_it": "Obsolete Compressed Vivid Hemorphite",
+ "typeName_it": "Batch Compressed Vivid Hemorphite",
"typeName_ja": "圧縮ビビッドヘモファイト",
"typeName_ko": "압축된 다채로운 헤모르파이트",
"typeName_ru": "Compressed Vivid Hemorphite",
@@ -176139,10 +176140,10 @@
"basePrice": 2522370.0,
"capacity": 0.0,
"description_de": "Jaspet enthält zwei wertvolle Mineralienarten, was es leicht verkäuflich macht. Es enthält einen großen Anteil Mexallon sowie etwas Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Riche de deux types de minéraux précieux, le jaspet est une valeur sûre du marché. Il contient une grande proportion de mexallon, ainsi que du nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ジャスペットには2種類の貴重な無機物が含まれているため、需要が高い。大量のメクサロンと少量のノキシウムが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "자스페트에는 다량의 멕살론과 소량의 녹시움이 함유되어 있어 상당한 수요를 자랑합니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "В состав джаспета входят два ценных минерала, что делает эту руду ходовым товаром. В ней содержится ноксий и большое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176158,10 +176159,10 @@
"radius": 1.0,
"typeID": 28406,
"typeName_de": "Compressed Jaspet",
- "typeName_en-us": "Obsolete Compressed Jaspet",
- "typeName_es": "Obsolete Compressed Jaspet",
+ "typeName_en-us": "Batch Compressed Jaspet",
+ "typeName_es": "Batch Compressed Jaspet",
"typeName_fr": "Jaspet compressé",
- "typeName_it": "Obsolete Compressed Jaspet",
+ "typeName_it": "Batch Compressed Jaspet",
"typeName_ja": "圧縮ジャスペット",
"typeName_ko": "압축된 자스페트",
"typeName_ru": "Compressed Jaspet",
@@ -176173,10 +176174,10 @@
"basePrice": 2781630.0,
"capacity": 0.0,
"description_de": "Makelloses Jaspet ist sehr selten. Das ist nicht verwunderlich, wenn man bedenkt, dass es sich nur bildet, wenn Asteroiden mit Kometen oder Eismonden kollidieren. Der Ertrag ist um 10% besser als der von einfachem Jaspet. Jaspet enthält zwei wertvolle Mineralienarten, was es leicht verkäuflich macht. Es enthält einen großen Anteil Mexallon sowie etwas Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le jaspet immaculé est très rare, ce qui n'a rien de surprenant si l'on considère qu'il est formé par la collision d'astéroïdes avec des comètes ou des lunes de glace. Son rendement est supérieur de 10 % à celui du jaspet classique. Riche de deux types de minéraux précieux, le jaspet est une valeur sûre du marché. Il contient une grande proportion de mexallon, ainsi que du nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "プリスティンジャスペットは非常に珍しい鉱石だ。アステロイドが彗星や氷衛星と衝突したときに形成されることを考えれば、珍しいのも当然だろう。通常のジャスペットより10%多い無機物を含む。\r\n\nジャスペットには2種類の貴重な無機物が含まれているため、需要が高い。大量のメクサロンと少量のノキシウムが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "흠없는 자스페트는 소행성이 혜성이나 얼음 위성과 충돌 할 때 형성되는 희귀한 광석입니다. 일반적인 자스페트에 비해 산출량이 10% 더 높습니다.
자스페트에는 다량의 멕살론과 소량의 녹시움이 함유되어 있어 상당한 수요를 자랑합니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Безупречный джаспет встречается крайне редко. И это неудивительно, ведь он образуется лишь при столкновении астероидов с кометами или ледяными спутниками. Содержит на 10% больше полезных минералов, чем обычный джаспет. В состав джаспета входят два ценных минерала, что делает эту руду ходовым товаром. В ней содержится ноксий и большое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176192,10 +176193,10 @@
"radius": 1.0,
"typeID": 28407,
"typeName_de": "Compressed Pristine Jaspet",
- "typeName_en-us": "Obsolete Compressed Pristine Jaspet",
- "typeName_es": "Obsolete Compressed Pristine Jaspet",
+ "typeName_en-us": "Batch Compressed Pristine Jaspet",
+ "typeName_es": "Batch Compressed Pristine Jaspet",
"typeName_fr": "Jaspet immaculé compressé",
- "typeName_it": "Obsolete Compressed Pristine Jaspet",
+ "typeName_it": "Batch Compressed Pristine Jaspet",
"typeName_ja": "圧縮プリスティンジャスペット",
"typeName_ko": "압축된 흠없는 자스페트",
"typeName_ru": "Compressed Pristine Jaspet",
@@ -176207,10 +176208,10 @@
"basePrice": 2636640.0,
"capacity": 0.0,
"description_de": "Reines Jaspet ist bei den Bergleuten der Corporations sehr beliebt, die eher nach verschiedenen Mineralien für die Fertigung Ausschau halten, anstatt aus reiner Profitgier zu schürfen. Reines Jaspet enthält weniger überschüssige Verbindungen als die meisten anderen Asteroiden und liefert eine etwa 5% höhere Mineralienausbeute aus der gleichen Menge Erz. Jaspet enthält zwei wertvolle Mineralienarten, was es leicht verkäuflich macht. Es enthält einen großen Anteil Mexallon sowie etwas Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le jaspet pur est très apprécié des mineurs appartenant à des corporations qui recherchent divers minéraux dans un but de production plutôt que pour le bénéfice d'un profit immédiat. Le jaspet pur contient moins d'impuretés que la plupart des astéroïdes et permet un rendement en minéraux environ 5 % plus important pour un volume de minerai équivalent. Riche de deux types de minéraux précieux, le jaspet est une valeur sûre du marché. Il contient une grande proportion de mexallon, ainsi que du nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ピュアジャスペットは、売買利益を目的として採掘されるよりも、コーポレーションの鉱山労働者が多種の無機物を抽出できる製造用原材料として求めることが多い。ピュアジャスペットは、廃棄物が通常のアステロイドより少ないため、同じ量で比較した場合、鉱石産出量が約5%多い。\r\n\nジャスペットには2種類の貴重な無機物が含まれているため、需要が高い。大量のメクサロンと少量のノキシウムが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "깨끗한 자스페트는 코퍼레이션 소속 광부들에게 인기가 높은 광물로 제조에 주로 활용됩니다. 대부분의 소행성 광석에 비해 불순물이 적어 같은 부피의 광석보다 산출량이 5% 가량 더 많습니다.
자스페트에는 다량의 멕살론과 소량의 녹시움이 함유되어 있어 상당한 수요를 자랑합니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Чистый джаспет популярен среди буровиков, работающих на корпорации. Такие буровики ищут минералы не столько ради выгоды, сколько для использования в производстве. Эта руда содержит меньше примесей, чем большинство астероидных руд, поэтому её переработка даёт примерно на 5% больше полезных минералов. В состав джаспета входят два ценных минерала, что делает эту руду ходовым товаром. В ней содержится ноксий и большое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176227,10 +176228,10 @@
"radius": 1.0,
"typeID": 28408,
"typeName_de": "Compressed Pure Jaspet",
- "typeName_en-us": "Obsolete Compressed Pure Jaspet",
- "typeName_es": "Obsolete Compressed Pure Jaspet",
+ "typeName_en-us": "Batch Compressed Pure Jaspet",
+ "typeName_es": "Batch Compressed Pure Jaspet",
"typeName_fr": "Jaspet pur compressé",
- "typeName_it": "Obsolete Compressed Pure Jaspet",
+ "typeName_it": "Batch Compressed Pure Jaspet",
"typeName_ja": "圧縮ピュアジャスペット",
"typeName_ko": "압축된 깨끗한 자스페트",
"typeName_ru": "Compressed Pure Jaspet",
@@ -176242,10 +176243,10 @@
"basePrice": 1236750.0,
"capacity": 0.0,
"description_de": "Seit der Entdeckung einer besonders reichen Ader, die eine Kneipenschlägerei epischen Ausmaßes im Gebiet des Intaki Syndicate zur Folge hatte, ist den Bergbauveteranen dieses Erz als „Rage Stone“ bekannt. Der Ertrag ist um 10% höher als der von gewöhnlichem Kernite. Kernite ist ein weit verbreiteter Erztyp mit sehr hohen Anteilen an Mexallon und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Ce minerai, appelé « pierre de colère » par les mineurs vétérans, doit son surnom à la découverte d'un filon particulièrement riche ayant provoqué une bagarre aux proportions épiques au sein de l'Intaki Syndicate. Il présente un rendement supérieur de 10 % à celui de la kernite classique. La kernite est un minerai plutôt commun qui produit de grandes quantités de mexallon et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "古株の採掘者の間は「怒りの石」という名で知られている。かつて非常に豊かな鉱脈が見つかった際、それをめぐってインタキシンジケートでは酒場で伝説的な大乱闘が起きたからだ。通常のケルナイトより10%多い無機物を含む。\r\n\nケルナイトは広く普及している鉱石で、ある程度のメクサロンとアイソゲンを含む。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "과거 인타키 신디케이트에서 대규모 광맥이 발견되었을 당시 소유권을 두고 커다란 분쟁이 발생했고, 그로 인해 '격노의 돌'이라는 별칭이 붙게 되었습니다. 일반적인 커나이트에 비해 산출량이 10% 가량 더 많습니다.
커나이트는 비교적 흔하게 발견되는 광석으로 다량의 멕살론과 이소젠을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Опытные буровики называют эту разновидность кернита «камнем ярости»: обнаружение одной особенно богатой жилы однажды вызвало внутри Интакийского синдиката потасовку эпических масштабов. В «камне ярости» на 10% больше полезных минералов, чем в обычном керните. Кернит — довольно распространённая руда с большим содержанием мексаллона и изогена. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176260,10 +176261,10 @@
"radius": 1.0,
"typeID": 28409,
"typeName_de": "Compressed Fiery Kernite",
- "typeName_en-us": "Obsolete Compressed Fiery Kernite",
- "typeName_es": "Obsolete Compressed Fiery Kernite",
+ "typeName_en-us": "Batch Compressed Fiery Kernite",
+ "typeName_es": "Batch Compressed Fiery Kernite",
"typeName_fr": "Kernite ardente compressée",
- "typeName_it": "Obsolete Compressed Fiery Kernite",
+ "typeName_it": "Batch Compressed Fiery Kernite",
"typeName_ja": "圧縮ファイヤリーケルナイト",
"typeName_ko": "압축된 야광 커나이트",
"typeName_ru": "Compressed Fiery Kernite",
@@ -176275,10 +176276,10 @@
"basePrice": 1123740.0,
"capacity": 0.0,
"description_de": "Kernite ist ein weit verbreiteter Erztyp mit sehr hohen Anteilen an Mexallon und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "La kernite est un minerai plutôt commun qui produit de grandes quantités de mexallon et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ケルナイトは広く普及している鉱石で、ある程度のメクサロンとアイソゲンを含む。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "커나이트는 비교적 흔하게 발견되는 광석 가운데 하나로 다량의 멕살론과 이소젠이 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Кернит — довольно распространённая руда с большим содержанием мексаллона и изогена. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176293,10 +176294,10 @@
"radius": 1.0,
"typeID": 28410,
"typeName_de": "Compressed Kernite",
- "typeName_en-us": "Obsolete Compressed Kernite",
- "typeName_es": "Obsolete Compressed Kernite",
+ "typeName_en-us": "Batch Compressed Kernite",
+ "typeName_es": "Batch Compressed Kernite",
"typeName_fr": "Kernite compressée",
- "typeName_it": "Obsolete Compressed Kernite",
+ "typeName_it": "Batch Compressed Kernite",
"typeName_ja": "圧縮ケルナイト",
"typeName_ko": "압축된 커나이트",
"typeName_ru": "Compressed Kernite",
@@ -176308,10 +176309,10 @@
"basePrice": 1179510.0,
"capacity": 0.0,
"description_de": "Propheten sprechen oft von der mystischen Natur des leuchtenden Kernite. Für den Rest von uns sieht es wie ein ganz gewöhnliches Erz aus, dessen Ertrag um 5% höher ist als bei normalem Kernite. Es kann Sie reich machen, wenn Sie rund um die Uhr Bergbau betreiben und sehr alt werden. Kernite ist ein weit verbreiteter Erztyp mit sehr hohen Anteilen an Mexallon und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Les prophètes prétendent que la kernite lumineuse est d'essence mystique. Pour les plus matérialistes, ce n'est qu'un minerai à la beauté discutable, dont le rendement supérieur de 5 % à celui de la kernite classique pourrait faire la fortune d'un mineur à l'espérance de vie très longue qui consacrerait toute son existence à extraire ce minerai. La kernite est un minerai plutôt commun qui produit de grandes quantités de mexallon et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "予言者たちは、ルミナスケルナイトには神秘的な力が秘められていると言う。それ以外の者にとっては、産出量が通常のケルナイトより5%多いだけの平凡な鉱石である。年中無休で掘り続け、十分に長生きすれば、そこそこの財を成せなくもないだろう。\r\n\nケルナイトは広く普及している鉱石で、ある程度のメクサロンとアイソゲンを含む。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "기묘한 특성 덕분인지 예언자들의 설화에 자주 등장하는 광석으로 일반적인 커나이트에 비해 산출량이 5% 더 많습니다. 365일 채굴만 한다면 부자가 될 수는 있겠지만 아주 오랜 시간이 걸릴 겁니다.
커나이트는 비교적 흔하게 발견되는 광석으로 다량의 멕살론과 이소젠을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Пророки рассказывают о мистической природе светящегося кернита. Однако для большинства буровиков эта руда примечательна лишь тем, что даёт на 5% больше минералов, чем обычная. Богачом она вас не сделает, если вы не собираетесь добывать её до глубокой старости, не зная ни сна, ни отдыха. Кернит — довольно распространённая руда с большим содержанием мексаллона и изогена. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176326,10 +176327,10 @@
"radius": 1.0,
"typeID": 28411,
"typeName_de": "Compressed Luminous Kernite",
- "typeName_en-us": "Obsolete Compressed Luminous Kernite",
- "typeName_es": "Obsolete Compressed Luminous Kernite",
+ "typeName_en-us": "Batch Compressed Luminous Kernite",
+ "typeName_es": "Batch Compressed Luminous Kernite",
"typeName_fr": "Kernite lumineuse compressée",
- "typeName_it": "Obsolete Compressed Luminous Kernite",
+ "typeName_it": "Batch Compressed Luminous Kernite",
"typeName_ja": "圧縮ルミナスケルナイト",
"typeName_ko": "압축된 반짝이는 커나이트",
"typeName_ru": "Compressed Luminous Kernite",
@@ -176341,10 +176342,10 @@
"basePrice": 36503552.0,
"capacity": 0.0,
"description_de": "Obwohl es durch die eisige Kälte des Weltraums schwebt, verleiht Mercoxit durch sein auffälliges Erscheinungsbild und seinen feurigen Glanz den Eindruck brodelnden Magmas. Und als wäre dieser Anblick nicht Lohn genug, lockt der um 5% erhöhte Ertrag mit Sicherheit zusätzliche Bewunderer an. Mercoxit ist ein sehr dichtes Erz, das nur mit fachspezifischen Bergbauverfahren abgebaut werden kann. Es enthält gewaltige Mengen des außergewöhnlichen Minerals Morphite. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Bien qu'il flotte dans les profondeurs glacées de l'espace, la splendeur et le flamboiement du mercoxit magma évoquent le magma en fusion. Et si ce véritable trésor pour les yeux ne suffisait pas, son rendement supplémentaire de 5 % attire certainement les admirateurs. Le mercoxit est un minerai très dense qui nécessite des techniques d'extraction profonde spécialisées. Il contient d'énormes quantités de l'extraordinaire minéral de morphite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "マグマメロコキサイトは凍てついた深宇宙を浮遊する鉱物だが、その目立つ外観と輝きはボコボコと沸き立つマグマを思わせる。その見た目の美しさもさる事ながら、産出量も通常より5%多いなど魅力的である。\r\n\nメロコキサイトは非常に高密度の鉱石で、ディープコア採掘という特殊技術を使って掘り出さねばならない。莫大な量のモルファイトを含有している。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "우주 외딴 곳에서만 발견되는 용암 메르코시트는 아름다운 외관과 붉은 광택을 지닌 광석입니다. 매력적인 외관과 더불어 일반적인 메르코시트에 비해 산출량이 5% 더 높습니다.
높은 밀도로 인해 채굴 시 딥코어 공법이 요구됩니다. 메르코시트에는 다량의 모르파이트가 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Блеск магматического меркоцита на миг заставляет забыть о вечном холоде космоса и почти физически ощутить жар пузырящейся магмы. Эта руда не только красиво выглядит, но ещё и содержит на 5% больше полезных минералов. Меркоцит очень плотный, поэтому его добывают только с помощью технологий глубокого бурения. Из меркоцита извлекают необычный минерал морфит в огромных количествах. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176359,10 +176360,10 @@
"radius": 1.0,
"typeID": 28412,
"typeName_de": "Compressed Magma Mercoxit",
- "typeName_en-us": "Obsolete Compressed Magma Mercoxit",
- "typeName_es": "Obsolete Compressed Magma Mercoxit",
+ "typeName_en-us": "Batch Compressed Magma Mercoxit",
+ "typeName_es": "Batch Compressed Magma Mercoxit",
"typeName_fr": "Mercoxit magma compressé",
- "typeName_it": "Obsolete Compressed Magma Mercoxit",
+ "typeName_it": "Batch Compressed Magma Mercoxit",
"typeName_ja": "圧縮マグマメロコキサイト",
"typeName_ko": "압축된 용암 메르코시트",
"typeName_ru": "Compressed Magma Mercoxit",
@@ -176374,10 +176375,10 @@
"basePrice": 34734080.0,
"capacity": 0.0,
"description_de": "Mercoxit ist ein sehr dichtes Erz, das nur mit fachspezifischen Bergbauverfahren abgebaut werden kann. Es enthält gewaltige Mengen des außergewöhnlichen Minerals Morphite. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le mercoxit est un minerai très dense qui nécessite des techniques d'extraction profonde spécialisées. Il contient d'énormes quantités de l'extraordinaire minéral de morphite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "メロコキサイトは非常に高密度の鉱石で、ディープコア採掘という特殊技術を使って掘り出さねばならない。莫大な量のモルファイトを含有している。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "메르코시트는 밀도가 매우 높아 채굴 시 특수한 딥코어 기술이 요구됩니다. 다량의 모르파이트가 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Меркоцит очень плотный, поэтому его добывают только с помощью технологий глубокого бурения. Из меркоцита извлекают необычный минерал морфит в огромных количествах. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176392,10 +176393,10 @@
"radius": 1.0,
"typeID": 28413,
"typeName_de": "Compressed Mercoxit",
- "typeName_en-us": "Obsolete Compressed Mercoxit",
- "typeName_es": "Obsolete Compressed Mercoxit",
+ "typeName_en-us": "Batch Compressed Mercoxit",
+ "typeName_es": "Batch Compressed Mercoxit",
"typeName_fr": "Mercoxit compressé",
- "typeName_it": "Obsolete Compressed Mercoxit",
+ "typeName_it": "Batch Compressed Mercoxit",
"typeName_ja": "圧縮メロコキサイト",
"typeName_ko": "압축된 메르코시트",
"typeName_ru": "Compressed Mercoxit",
@@ -176407,10 +176408,10 @@
"basePrice": 38207488.0,
"capacity": 0.0,
"description_de": "Wie ein Schatz aus sagenumwobenen Zeiten schimmert glasiges Mercoxit in der Dunkelheit. Das nur in seltenen Clustern des Weltraums auftretende Mercoxit ist sehr rar, jedoch aufgrund seines um 10% erhöhten Ertrags auch sehr wertvoll. Mercoxit ist ein sehr dichtes Erz, das nur mit fachspezifischen Bergbauverfahren abgebaut werden kann. Es enthält gewaltige Mengen des außergewöhnlichen Minerals Morphite. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le mercoxit vitreux scintille dans la nuit comme les mythiques sirènes. Uniquement présent dans quelques rares amas d'astéroïdes de l'espace, le mercoxit vitreux est à la fois très rare et très rentable grâce à son rendement supplémentaire de 10 %. Le mercoxit est un minerai très dense qui nécessite des techniques d'extraction profonde spécialisées. Il contient d'énormes quantités de l'extraordinaire minéral de morphite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ガラス質メロコキサイトはまるで神話のセイレーンのように暗闇の中できらめきを放つ。宇宙空間でごく稀に発見されるが、鉱石産出量が通常よりも10%高いなどその価値は極めて高い。\r\n\nメロコキサイトは非常に高密度の鉱石で、ディープコア採掘という特殊技術を使って掘り出さねばならない。莫大な量のモルファイトを含有している。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "투명한 메르코시트는 마치 신화 속의 사이렌처럼 은은한 빛을 내뿜습니다. 오지에서만 발견되는 희귀 광석으로 일반 메르코시트에 비해 산출량이 10% 가량 많아 높은 시세를 형성하고 있습니다.
메르코시트는 밀도가 매우 높아 채굴 시 특수한 딥코어 기술이 요구됩니다. 다량의 모르파이트가 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Стекловидный меркоцит мерцает во тьме, словно сирена из мифов. Такой меркоцит попадается лишь в очень немногих скоплениях. Эта редкая и ценная руда содержит на 10% больше полезных минералов. Меркоцит очень плотный, поэтому его добывают только с помощью технологий глубокого бурения. Из меркоцита извлекают необычный минерал морфит в огромных количествах. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176425,10 +176426,10 @@
"radius": 1.0,
"typeID": 28414,
"typeName_de": "Compressed Vitreous Mercoxit",
- "typeName_en-us": "Obsolete Compressed Vitreous Mercoxit",
- "typeName_es": "Obsolete Compressed Vitreous Mercoxit",
+ "typeName_en-us": "Batch Compressed Vitreous Mercoxit",
+ "typeName_es": "Batch Compressed Vitreous Mercoxit",
"typeName_fr": "Mercoxit vitrifié compressé",
- "typeName_it": "Obsolete Compressed Vitreous Mercoxit",
+ "typeName_it": "Batch Compressed Vitreous Mercoxit",
"typeName_ja": "圧縮ガラス質メロコキサイト",
"typeName_ko": "압축된 투명 메르코시트",
"typeName_ru": "Compressed Vitreous Mercoxit",
@@ -176440,10 +176441,10 @@
"basePrice": 675300.0,
"capacity": 0.0,
"description_de": "Goldenes Omber hat in der Anfangszeit der Weltraumfahrt einen gewaltigen Goldrausch ausgelöst, als Isogen noch der König der Mineralien war. Da es im Gegensatz zu einfachem Omber einen zusätzlichen Gewinn von 10% bietet, war es für ein paar Jahre eines der meistgesuchten Erze. Omber ist ein weitverbreitetes und für Anfänger immer noch hervorragendes Erz, da es neben einer großen Menge an Isogen auch Pyerite enthält. Schon nach wenigen Bergbau-Einsätzen kann ein Neuling so relativ schnell seinen Status erhöhen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'omber doré a provoqué l'une des plus importantes ruées vers l'or aux débuts de la conquête spatiale, lorsque l'isogène était le joyau des minéraux. Son rendement supérieur de 10 % à celui de l'omber classique suffit pour en faire le minerai le plus convoité pendant plusieurs années. L'omber est un minerai brut recommandé pour les mineurs néophytes, car il contient une proportion non négligeable d'isogène, ainsi que de la pyérite. Quelques voyages suffisent à faire rapidement monter un mineur débutant en grade. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "まだ星間航行技術が発達しておらず、アイソゲンが最も高価な無機物とされていた頃、度々起きたゴールドラッシュのきっかけの1つとなったのがゴールデンオンバーだった。通常のオンバーより無機物の含有量が10%多いというだけの理由で、その後何年も人々が血眼で探し求める石となったのだ。\r\n\nオンバーはありふれた鉱石だが、かなりの量のアイソゲンを含み、トリタニウムとパイライトも多少採れるため、採掘初心者にはうってつけだ。この鉱石を何回か採掘しに行けば、すぐに鉱山労働者としてのステップを上がれることだろう。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "이소젠이 광물의 왕으로 불리던 시절, 이소젠 함량이 높은 금빛 옴버를 얻기 위해 대대적인 채굴 작전이 실시되었습니다. 일반적인 옴버에 비해 산출량이 10% 가량 많아 꾸준한 수요를 자랑합니다.
옴버는 비교적 흔하게 발견되는 광석 가운데 하나로 다량의 이소젠과 평균적인 수준의 파이어라이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Золотистый омбер спровоцировал одну из самых масштабных золотых лихорадок на заре освоения космоса, когда изоген был королём среди минералов. В золотистом омбере присутствует на 10% больше полезных минералов, чем в обычном, поэтому несколько лет спрос на него был просто сумасшедшим. Омбер — широко распространённая руда, но он отлично подходит начинающим буровикам, поскольку содержит достаточно изогена и некоторое количество пирита. Добыча нескольких партий омбера помогает новичкам быстро поднять свой статус. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176458,10 +176459,10 @@
"radius": 1.0,
"typeID": 28415,
"typeName_de": "Compressed Golden Omber",
- "typeName_en-us": "Obsolete Compressed Golden Omber",
- "typeName_es": "Obsolete Compressed Golden Omber",
+ "typeName_en-us": "Batch Compressed Golden Omber",
+ "typeName_es": "Batch Compressed Golden Omber",
"typeName_fr": "Omber doré compressé",
- "typeName_it": "Obsolete Compressed Golden Omber",
+ "typeName_it": "Batch Compressed Golden Omber",
"typeName_ja": "圧縮黄金色オンバー",
"typeName_ko": "압축된 금빛 옴버",
"typeName_ru": "Compressed Golden Omber",
@@ -176473,10 +176474,10 @@
"basePrice": 613410.0,
"capacity": 0.0,
"description_de": "Omber ist ein weitverbreitetes und für Anfänger immer noch hervorragendes Erz, da es neben einer großen Menge an Isogen auch Pyerite enthält. Schon nach wenigen Bergbau-Einsätzen kann ein Neuling so relativ schnell seinen Status erhöhen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'omber est un minerai brut recommandé pour les mineurs néophytes, car il contient une proportion non négligeable d'isogène, ainsi que de la pyérite. Quelques voyages suffisent à faire rapidement monter un mineur débutant en grade. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "オンバーはありふれた鉱石だが、かなりの量のアイソゲンを含み、トリタニウムとパイライトも多少採れるため、採掘初心者にはうってつけだ。この鉱石を何回か採掘しに行けば、すぐに鉱山労働者としてのステップを上がれることだろう。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "옴버는 비교적 흔하게 발견되는 광석 가운데 하나로 다량의 이소젠과 평균적인 수준의 파이어라이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Омбер — широко распространённая руда, но он отлично подходит начинающим буровикам, поскольку содержит достаточно изогена и некоторое количество пирита. Добыча нескольких партий омбера помогает новичкам быстро поднять свой статус. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176491,10 +176492,10 @@
"radius": 1.0,
"typeID": 28416,
"typeName_de": "Compressed Omber",
- "typeName_en-us": "Obsolete Compressed Omber",
- "typeName_es": "Obsolete Compressed Omber",
+ "typeName_en-us": "Batch Compressed Omber",
+ "typeName_es": "Batch Compressed Omber",
"typeName_fr": "Omber compressé",
- "typeName_it": "Obsolete Compressed Omber",
+ "typeName_it": "Batch Compressed Omber",
"typeName_ja": "圧縮オンバー",
"typeName_ko": "압축된 옴버",
"typeName_ru": "Compressed Omber",
@@ -176506,10 +176507,10 @@
"basePrice": 643380.0,
"capacity": 0.0,
"description_de": "Silbriges Omber wurde erstmals vor etwa fünfzig Jahren in einem Asteroidengürtel in der Nähe eines großen Mondes entdeckt. Das Leuchten des Mondes ließ diesen ungewöhnlichen Verwandten des normalen Ombers silbern erscheinen, daher sein Name. Es gilt unter Bergleuten in ganz New Eden dennoch als glücklicher Fund, da es etwa 5% mehr Mineralien liefert als normales Omber. Omber ist ein weitverbreitetes und für Anfänger immer noch hervorragendes Erz, da es neben einer großen Menge an Isogen auch Pyerite enthält. Schon nach wenigen Bergbau-Einsätzen kann ein Neuling so relativ schnell seinen Status erhöhen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "L'omber argenté fut découvert il y a une cinquantaine d'années dans une ceinture d'astéroïdes située près d'une grande lune. Ce cousin rare de l'omber standard doit son nom à la luminescence émise par la lune, qui lui donne une apparence argentée. Les extracteurs de New Eden sont toujours contents d'en découvrir en raison de son rendement minéral, supérieur de 5 % à celui de l'omber classique. L'omber est un minerai brut recommandé pour les mineurs néophytes, car il contient une proportion non négligeable d'isogène, ainsi que de la pyérite. Quelques voyages suffisent à faire rapidement monter un mineur débutant en grade. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "銀色オンバーは50年ほど前、ある大型衛星の近くのアステロイドベルトで発見された。珍しい種類のオンバーで、発見当時、衛星の光を浴びて銀色に見えたことからこの名が付いた。およそ5%ではあるが、通常のオンバーよりもミネラルを含んでいるため、ニューエデンの採鉱者たちからは見つけたら幸運だと思われている。\r\n\nオンバーはありふれた鉱石だが、かなりの量のアイソゲンを含み、トリタニウムとパイライトも多少採れるため、採掘初心者にはうってつけだ。この鉱石を何回か採掘しに行けば、すぐに鉱山労働者としてのステップを上がれることだろう。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "은빛 옴버는 약 50년 전 대형 위성 근처에 자리잡고 있던 한 소행성 지대에서 처음 발견되었습니다. 당시 달빛에 반사된 은은한 빛에 따라 은빛 옴버라는 명칭이 붙게 되었습니다. 은빛 옴버는 일반적인 옴버에 비해 산출량이 5% 가량 더 많기 때문에 광부들 사이에서 인기가 매우 높습니다.
옴버는 뉴에덴에서 흔하게 발견되는 광석 가운데 하나로 다량의 이소젠과 평균적인 수준의 파이어라이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Серебристый омбер впервые был обнаружен около пятидесяти лет назад в поясе астероидов возле большого спутника. В отражённом от спутника свете эта менее распространённая разновидность омбера казалась серебристой; оттуда и пошло её название. Серебристый омбер считается удачной находкой: в нём примерно на 5% больше полезных минералов, чем в обычном омбере. Омбер — широко распространённая руда, но он отлично подходит начинающим буровикам, поскольку содержит достаточно изогена и некоторое количество пирита. Добыча нескольких партий омбера помогает новичкам быстро поднять свой статус. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176525,10 +176526,10 @@
"radius": 1.0,
"typeID": 28417,
"typeName_de": "Compressed Silvery Omber",
- "typeName_en-us": "Obsolete Compressed Silvery Omber",
- "typeName_es": "Obsolete Compressed Silvery Omber",
+ "typeName_en-us": "Batch Compressed Silvery Omber",
+ "typeName_es": "Batch Compressed Silvery Omber",
"typeName_fr": "Omber argenté compressé",
- "typeName_it": "Obsolete Compressed Silvery Omber",
+ "typeName_it": "Batch Compressed Silvery Omber",
"typeName_ja": "圧縮銀色オンバー",
"typeName_ko": "압축된 은빛 옴버",
"typeName_ru": "Compressed Silvery Omber",
@@ -176540,10 +176541,10 @@
"basePrice": 6034350.0,
"capacity": 0.0,
"description_de": "Spodumain ist gelegentlich mit kristallinen Spuren auf der äußeren Oberfläche zu finden. Diese Kristalle, auch als Strahlendes Spodumain bekannt, steigern den sowieso schon recht hohen Wert des Minerals um noch etwa 5%. Spodumain gehört zu den begehrtesten Erzen, da es große Mengen der am meisten benötigten Ressource sowie Spuren einiger der wertvolleren Mineralien enthält. Große Mengen an Tritanium sowie bescheidene Mengen an Isogen, Nocxium, Zydrine und Megacyte können durch die Aufbereitung dieser Felsen gewonnen werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le spodumain présente occasionnellement des traces cristallines sur sa surface extérieure. On appelle cette matière « spodumain brillant » car le cristal ajoute une valeur supérieure de 5 % à ce minerai déjà très précieux. Le spodumain compte parmi les types de minerai les plus convoités, car il contient d'importantes quantités des minéraux les plus demandés du marché et recèle des filons de minerais précieux. Le raffinage de cette roche fournit un rendement considérable de tritanium, ainsi qu'un volume modéré d'isogène, de nocxium, de zydrine et de mégacyte. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "スポデュメインの中には時折、表面に水晶が付着したものがある。これはブライトスポデュメインといい、元々希少なスポデュメインの価値を5%高めてくれる。\r\n\nスポデュメインは最も需要の大きい資源を大量に含み、また比較的希少な無機物もある程度抽出できる非常に人気の高い鉱石である。これを精錬することで、膨大な量のトリタニウムと、幾分かのアイソゲン、ノキシウム、ザイドリン、メガサイトを採取できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "특수한 스포듀마인으로 표면에 결정질 흔적이 새겨져 있습니다. 흔히 뒤섞인 스포듀마인으로 불리며 일반적인 스포듀마인에 비해 산출량이 약 5% 가량 더 높습니다.
각종 광물을 다량 함유하고 있어 상당한 가치를 지닌 광석으로 취급됩니다. 스포듀마인에는 다량의 트리타늄과 평균적인 수준의 이소젠, 녹시움, 자이드라인, 그리고 메가사이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Иногда удаётся отыскать сподумейн с кристаллическими вкраплениями на внешней поверхности. Эту разновидность называют ярким сподумейном. Кристаллические прожилки делают и так ценный минерал на 5% ценнее. Сподумейн ценится чрезвычайно высоко: он в больших объёмах содержит самый востребованный ресурс и в меньших — более редкие минералы. При переработке сподумейна можно получить очень много тритания и умеренное количество изогена, ноксия, зидрина и мегацита. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176560,10 +176561,10 @@
"radius": 1.0,
"typeID": 28418,
"typeName_de": "Compressed Bright Spodumain",
- "typeName_en-us": "Obsolete Compressed Bright Spodumain",
- "typeName_es": "Obsolete Compressed Bright Spodumain",
+ "typeName_en-us": "Batch Compressed Bright Spodumain",
+ "typeName_es": "Batch Compressed Bright Spodumain",
"typeName_fr": "Spodumain brillant compressé",
- "typeName_it": "Obsolete Compressed Bright Spodumain",
+ "typeName_it": "Batch Compressed Bright Spodumain",
"typeName_ja": "圧縮ブライトスポデュメイン",
"typeName_ko": "압축된 뒤섞인 스포듀마인",
"typeName_ru": "Compressed Bright Spodumain",
@@ -176575,10 +176576,10 @@
"basePrice": 6321700.0,
"capacity": 0.0,
"description_de": "Von Zeit zu Zeit wird Spodumain gefunden, das mit kristallinen Adern durchzogen ist. Der um 10% erhöhte Wert, der sich daraus ergibt, lässt die Augen der Bergleute funkeln, die das Glück haben, es zu finden. Spodumain gehört zu den begehrtesten Erzen, da es große Mengen der am meisten benötigten Ressource sowie Spuren einiger der wertvolleren Mineralien enthält. Große Mengen an Tritanium sowie bescheidene Mengen an Isogen, Nocxium, Zydrine und Megacyte können durch die Aufbereitung dieser Felsen gewonnen werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Les gisements de spodumain présentent occasionnellement des veines cristallines. Les 10 % de valeur ajoutée par le cristal font briller les yeux des mineurs qui ont la chance d'en découvrir. Le spodumain compte parmi les types de minerai les plus convoités, car il contient d'importantes quantités des minéraux les plus demandés du marché et recèle des filons de minerais précieux. Le raffinage de cette roche fournit un rendement considérable de tritanium, ainsi qu'un volume modéré d'isogène, de nocxium, de zydrine et de mégacyte. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "スポデュメインの中にはまれに、水晶質の筋が入ったものがある。これは生産性が通常より10%高いしるしなので、発見した者はあまりの幸運に目を輝かせるほどだ。\r\n\nスポデュメインは最も需要の大きい資源を大量に含み、また比較的希少な無機物もある程度抽出できる非常に人気の高い鉱石である。これを精錬することで、膨大な量のトリタニウムと、幾分かのアイソゲン、ノキシウム、ザイドリン、メガサイトを採取できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "결정질 흔적이 새겨진 특수한 스포듀마인입니다. 일반적인 스포듀마인에 비해 산출량이 10% 가량 더 높습니다.
각종 광물을 다량 함유하고 있어 상당한 가치를 지닌 광석으로 취급됩니다. 스포듀마인에는 다량의 트리타늄과 평균적인 수준의 이소젠, 녹시움, 자이드라인, 그리고 메가사이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Периодически попадается сподумейн с кристаллическими прожилками. Алчный блеск разгорается в глазах буровиков, которым посчастливилось найти такой сподумейн, ведь его ценность выше на 10%. Сподумейн ценится чрезвычайно высоко: он в больших объёмах содержит самый востребованный ресурс и в меньших — более редкие минералы. При переработке сподумейна можно получить очень много тритания и умеренное количество изогена, ноксия, зидрина и мегацита. Это сжатая руда. Она имеет гораздо большую плотность, чем обычная порода.",
@@ -176594,10 +176595,10 @@
"radius": 1.0,
"typeID": 28419,
"typeName_de": "Compressed Gleaming Spodumain",
- "typeName_en-us": "Obsolete Compressed Gleaming Spodumain",
- "typeName_es": "Obsolete Compressed Gleaming Spodumain",
+ "typeName_en-us": "Batch Compressed Gleaming Spodumain",
+ "typeName_es": "Batch Compressed Gleaming Spodumain",
"typeName_fr": "Spodumain luisant compressé",
- "typeName_it": "Obsolete Compressed Gleaming Spodumain",
+ "typeName_it": "Batch Compressed Gleaming Spodumain",
"typeName_ja": "圧縮グリーミングスポデュメイン",
"typeName_ko": "압축된 혼합 스포듀마인",
"typeName_ru": "Compressed Gleaming Spodumain",
@@ -176609,10 +176610,10 @@
"basePrice": 5747000.0,
"capacity": 0.0,
"description_de": "Spodumain gehört zu den begehrtesten Erzen, da es große Mengen der am meisten benötigten Ressource sowie Spuren einiger der wertvolleren Mineralien enthält. Große Mengen an Tritanium sowie bescheidene Mengen an Isogen, Nocxium, Zydrine und Megacyte können durch die Aufbereitung dieser Felsen gewonnen werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le spodumain compte parmi les types de minerai les plus convoités, car il contient d'importantes quantités des minéraux les plus demandés du marché et recèle des filons de minerais précieux. Le raffinage de cette roche fournit un rendement considérable de tritanium, ainsi qu'un volume modéré d'isogène, de nocxium, de zydrine et de mégacyte. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "スポデュメインは最も需要の大きい資源を大量に含み、また比較的希少な無機物もある程度抽出できる非常に人気の高い鉱石である。これを精錬することで、膨大な量のトリタニウムと、幾分かのアイソゲン、ノキシウム、ザイドリン、メガサイトを採取できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "각종 광물을 다량 함유하고 있어 상당한 가치를 지닌 광석으로 취급됩니다. 스포듀마인에는 다량의 트리타늄과 평균적인 수준의 이소젠, 녹시움, 자이드라인, 그리고 메가사이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Сподумейн ценится чрезвычайно высоко: он в больших объёмах содержит самый востребованный ресурс и в меньших — более редкие минералы. При переработке сподумейна можно получить очень много тритания и умеренное количество изогена, ноксия, зидрина и мегацита. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176628,10 +176629,10 @@
"radius": 1.0,
"typeID": 28420,
"typeName_de": "Compressed Spodumain",
- "typeName_en-us": "Obsolete Compressed Spodumain",
- "typeName_es": "Obsolete Compressed Spodumain",
+ "typeName_en-us": "Batch Compressed Spodumain",
+ "typeName_es": "Batch Compressed Spodumain",
"typeName_fr": "Spodumain compressé",
- "typeName_it": "Obsolete Compressed Spodumain",
+ "typeName_it": "Batch Compressed Spodumain",
"typeName_ja": "圧縮スポデュメイン",
"typeName_ko": "압축된 스포듀마인",
"typeName_ru": "Compressed Spodumain",
@@ -176643,10 +176644,10 @@
"basePrice": 336250.0,
"capacity": 0.0,
"description_de": "Das ungewöhnliche Azur-Plagioclase liefert eine etwa 5 % höhere Mineralausbeute als normales Plagioclase. Azur-Plagioclase wurde wegen eines melancholischen Bergbau-Blues berühmt-berüchtigt, den Jaroud Dertier, ein Folksänger der Gallente, vor dreißig Jahren komponierte. Plagioclase gehört nicht zu den wertvollsten Erzarten, sein hoher Tritanium-Gehalt sorgt aber für eine kontinuierliche Nachfrage. Es enthält auch Spuren von Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le plagioclase azuré est une variante inhabituelle du plagioclase ; son rendement minéral est supérieur à celui-ci de 5 %. Il a été rendu tristement célèbre il y a une trentaine d'années dans le Blues du mineur, une ballade mélancolique interprétée par Jaroud Dertier, le célèbre chanteur populaire gallente. Le plagioclase n'est certainement pas le minerai brut le plus précieux, mais il contient une grande quantité de tritanium, et c'est pourquoi sa demande ne faiblit jamais. Il produit également du mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "瑠璃色プラジオクレイスは、プラジオクレイスの中では珍しく、鉱量が5%向上した。30年前にガレンテ人フォークシンガーのジャロウド・ダーティアーが歌った「採掘者ブルース」の歌詞に登場して以来、すっかり憂鬱なイメージが定着してしまった鉱石だ。\r\n\nプラジオクレイスは、それほど高値で取り引きされる類の鉱石ではないが、トリタニウムの含有率が高いため、常に需要が絶えない。少量ながらメクサロンも採れる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "드물게 발견되는 광석으로 일반적인 플레지오클레이스에 비해 산출량이 5% 더 높습니다. 약 30년 전 갈란테 포크송 가수인 제로드 다르티에르의 노래를 통해 처음 이름을 알렸습니다.
플레지오클레이스는 다른 광석에 비해 가치가 상대적으로 낮지만 다량의 트리타늄을 함유하고 있어 수요가 많은 편에 속합니다. 트리타늄 외에도 평균적인 수준의 멕살론을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Лазурный плагиоклаз — не очень распространённая разновидность плагиоклаза. В нём на 5% больше полезных минералов. У лазурного плагиоклаза дурная репутация, и виной тому — грустная песня «Блюз буровика», написанная галлентским фолк-певцом Жару Дертье тридцать лет тому назад. Плагиоклаз не отличается особой ценностью, однако он содержит большое количество тритания и потому пользуется постоянным спросом. Из этой руды также извлекают мексаллон. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176662,10 +176663,10 @@
"radius": 1.0,
"typeID": 28421,
"typeName_de": "Compressed Azure Plagioclase",
- "typeName_en-us": "Obsolete Compressed Azure Plagioclase",
- "typeName_es": "Obsolete Compressed Azure Plagioclase",
+ "typeName_en-us": "Batch Compressed Azure Plagioclase",
+ "typeName_es": "Batch Compressed Azure Plagioclase",
"typeName_fr": "Plagioclase azuré compressé",
- "typeName_it": "Obsolete Compressed Azure Plagioclase",
+ "typeName_it": "Batch Compressed Azure Plagioclase",
"typeName_ja": "圧縮瑠璃色プラジオクレイス",
"typeName_ko": "압축된 굳은 플레지오클레이스",
"typeName_ru": "Compressed Azure Plagioclase",
@@ -176677,10 +176678,10 @@
"basePrice": 320000.0,
"capacity": 0.0,
"description_de": "Plagioclase gehört nicht zu den wertvollsten Erzarten, sein hoher Tritanium-Gehalt sorgt aber für eine kontinuierliche Nachfrage. Es enthält auch Spuren von Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le plagioclase n'est certainement pas le minerai brut le plus précieux, mais il contient une grande quantité de tritanium, et c'est pourquoi sa demande ne faiblit jamais. Il produit également du mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "プラジオクレイスは、それほど高値で取り引きされる類の鉱石ではないが、トリタニウムの含有率が高いため、常に需要が絶えない。少量ながらメクサロンも採れる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "플레지오클레이스의 가치는 상대적으로 낮지만 다량의 트리타늄을 함유하고 있어 꾸준한 수요를 자랑합니다. 트리타늄 외에도 소량의 멕살론을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Плагиоклаз не отличается особой ценностью, однако он содержит большое количество тритания и потому пользуется постоянным спросом. Из этой руды также извлекают мексаллон. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176695,10 +176696,10 @@
"radius": 1.0,
"typeID": 28422,
"typeName_de": "Compressed Plagioclase",
- "typeName_en-us": "Obsolete Compressed Plagioclase",
- "typeName_es": "Obsolete Compressed Plagioclase",
+ "typeName_en-us": "Batch Compressed Plagioclase",
+ "typeName_es": "Batch Compressed Plagioclase",
"typeName_fr": "Plagioclase compressé",
- "typeName_it": "Obsolete Compressed Plagioclase",
+ "typeName_it": "Batch Compressed Plagioclase",
"typeName_ja": "圧縮プラジオクレイス",
"typeName_ko": "압축된 플레지오클레이스",
"typeName_ru": "Compressed Plagioclase",
@@ -176710,10 +176711,10 @@
"basePrice": 352300.0,
"capacity": 0.0,
"description_de": "Reichhaltiges Plagioclase bietet eine um 10% höhere Mineralausbeute als normales Plagioclase und wird von Bergleuten daher endlich als ein Mineral angesehen, das einen beachtenswerten Gewinn ermöglicht. Plagioclase gehört nicht zu den wertvollsten Erzarten, sein hoher Tritanium-Gehalt sorgt aber für eine kontinuierliche Nachfrage. Es enthält auch Spuren von Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le plagioclase riche, dont le rendement est supérieur de 10 % à celui du minerai de plagioclase classique, est un minerai très rémunérateur pour les mineurs. Le plagioclase n'est certainement pas le minerai brut le plus précieux, mais il contient une grande quantité de tritanium, et c'est pourquoi sa demande ne faiblit jamais. Il produit également du mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "リッチプラジオクレイスは、通常のプラジオクレイスより10%多く無機物を含み、この種の鉱石も資源として結構な利益をもたらすことを採掘者に知らしめた。\r\n\nプラジオクレイスは、それほど高値で取り引きされる類の鉱石ではないが、トリタニウムの含有率が高いため、常に需要が絶えない。少量ながらメクサロンも採れる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "일반적인 플레지오클레이스에 비해 미네랄 산출량이 10% 가량 더 많아 상대적으로 높은 가치를 자랑합니다.
플레지오클레이스는 다른 광석에 비해 가치가 상대적으로 낮지만 다량의 트리타늄을 함유하고 있어 수요가 많은 편에 속합니다. 트리타늄 외에도 평균적인 수준의 멕살론을 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Благодаря насыщенному плагиоклазу, в котором присутствует на 10% больше полезных минералов, чем в обычном, буровики наконец начали рассматривать плагиоклаз как неплохой источник прибыли. Плагиоклаз не отличается особой ценностью, однако он содержит большое количество тритания и потому пользуется постоянным спросом. Из этой руды также извлекают мексаллон. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176728,10 +176729,10 @@
"radius": 1.0,
"typeID": 28423,
"typeName_de": "Compressed Rich Plagioclase",
- "typeName_en-us": "Obsolete Compressed Rich Plagioclase",
- "typeName_es": "Obsolete Compressed Rich Plagioclase",
+ "typeName_en-us": "Batch Compressed Rich Plagioclase",
+ "typeName_es": "Batch Compressed Rich Plagioclase",
"typeName_fr": "Plagioclase riche compressé",
- "typeName_it": "Obsolete Compressed Rich Plagioclase",
+ "typeName_it": "Batch Compressed Rich Plagioclase",
"typeName_ja": "圧縮リッチプラジオクレイス",
"typeName_ko": "압축된 단단한 플레지오글레이스",
"typeName_ru": "Compressed Rich Plagioclase",
@@ -176743,10 +176744,10 @@
"basePrice": 290800.0,
"capacity": 0.0,
"description_de": "Pyroxeres ist ein gewöhnliches Erz, das in allen Regionen des Weltraums vorkommt. Es enthält moderate Mengen an Pyerite und Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le pyroxeres est un minerai commun disséminé à travers toutes les régions de l'espace. Il contient des proportions non négligeables de pyérite et de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "パイロゼリーズは全宙域で普遍的に見つかる鉱物で、相当量のパイライトとメクサロンを含有している。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "파이로제레스는 우주 전역에서 채굴되는 일반적인 광석입니다. 평균적인 수준의 파이어라이트와 멕살론이 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Пироксер — распространённый вид руды. Встречается во всех секторах. Богат пиритом и мексаллоном. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176761,10 +176762,10 @@
"radius": 1.0,
"typeID": 28424,
"typeName_de": "Compressed Pyroxeres",
- "typeName_en-us": "Obsolete Compressed Pyroxeres",
- "typeName_es": "Obsolete Compressed Pyroxeres",
+ "typeName_en-us": "Batch Compressed Pyroxeres",
+ "typeName_es": "Batch Compressed Pyroxeres",
"typeName_fr": "Pyroxeres compressé",
- "typeName_it": "Obsolete Compressed Pyroxeres",
+ "typeName_it": "Batch Compressed Pyroxeres",
"typeName_ja": "圧縮パイロゼリーズ",
"typeName_ko": "압축된 파이로제레스",
"typeName_ru": "Compressed Pyroxeres",
@@ -176776,10 +176777,10 @@
"basePrice": 311100.0,
"capacity": 0.0,
"description_de": "Solides Pyroxeres, manchmal auch „Flamme von Dam'Torsad“ genannt, ist mit normalem Pyroxeres verwandt. Die „Flamme“ hat eine 5% höhere Mineralausbeute als ihr gewöhnliches Gegenstück. Pyroxeres ist ein gewöhnliches Erz, das in allen Regionen des Weltraums vorkommt. Es enthält moderate Mengen an Pyerite und Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le pyroxeres solide, parfois appelé « flamme de Dam'Torsad », est proche du pyroxeres standard. Son rendement est supérieur de 5 % à celui du minerai de pyroxeres classique. Le pyroxeres est un minerai commun disséminé à travers toutes les régions de l'espace. Il contient des proportions non négligeables de pyérite et de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ソリッドパイロゼリーズは、「ダムトーサッドの炎」という異名を持つ、パイロゼリーズ系の鉱石である。「ダムトーサッドの炎」の無機物含有量は通常のものに比べて5%多い。\r\n\nパイロゼリーズは全宙域で普遍的に見つかる鉱物で、相当量のパイライトとメクサロンを含有している。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "담토르사드의 불꽃으로도 불리는 고체 파이로제레스는 일반적인 파이로제레스와 유사한 계열의 광석입니다. 일반적인 파이로제레스에 비해 산출량이 약 5% 가량 더 높습니다.
파이로제레스는 우주 전역에서 채굴되는 일반적인 광석입니다. 평균적인 수준의 파이어라이트와 멕살론이 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Цельный пироксер, иногда называемый «Пламенем Дам-Торсада», — одна из разновидностей пироксера. Цельный пироксер содержит на 5% больше полезных минералов, чем обычный. Пироксер — распространённый вид руды. Встречается во всех секторах. Богат пиритом и мексаллоном. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176794,10 +176795,10 @@
"radius": 1.0,
"typeID": 28425,
"typeName_de": "Compressed Solid Pyroxeres",
- "typeName_en-us": "Obsolete Compressed Solid Pyroxeres",
- "typeName_es": "Obsolete Compressed Solid Pyroxeres",
+ "typeName_en-us": "Batch Compressed Solid Pyroxeres",
+ "typeName_es": "Batch Compressed Solid Pyroxeres",
"typeName_fr": "Pyroxeres solide compressé",
- "typeName_it": "Obsolete Compressed Solid Pyroxeres",
+ "typeName_it": "Batch Compressed Solid Pyroxeres",
"typeName_ja": "圧縮ソリッドパイロゼリーズ",
"typeName_ko": "압축된 진흙 파이로제레스",
"typeName_ru": "Compressed Solid Pyroxeres",
@@ -176809,10 +176810,10 @@
"basePrice": 318600.0,
"capacity": 0.0,
"description_de": "Zähes Pyroxeres ist das Geheimnis des Erfolges von ORE in seinen ersten Tagen. ORE hat sich seither auf profitablere Mineralien konzentriert, aber Zähes Pyroxeres hat mit seiner 10% höheren Mineralausbeute immer noch einen besonderen Platz im Herzen aller Bergleute, die davon träumen, der nächste Bergbau-Mogul in EVE zu werden. Pyroxeres ist ein gewöhnliches Erz, das in allen Regionen des Weltraums vorkommt. Es enthält moderate Mengen an Pyerite und Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le pyroxeres visqueux fit les beaux jours de l'ORE à ses débuts. L'organisation s'est depuis tournée vers des minéraux plus rentables, mais le pyroxeres visqueux et son rendement minéral supérieur de 10 % garde une place toute particulière dans le cœur des mineurs qui rêvent de devenir les prochains nababs de l'industrie minière d'EVE. Le pyroxeres est un minerai commun disséminé à travers toutes les régions de l'espace. Il contient des proportions non négligeables de pyérite et de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "その昔、OREの成功を陰で支えたのが粘着質パイロゼリースである。OREはその後、より利益率の高い鉱石に移っていったが、次の採掘王を夢見て掘り続ける人々にとっては、粘着質パイロゼリーズとその標準より10%高い産出量は今も心の中で特別な位置を占める存在だ。\r\n\nパイロゼリーズは全宙域で普遍的に見つかる鉱物で、相当量のパイライトとメクサロンを含有している。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE의 성장 배경에는 점성 파이로제레스가 큰 역할을 했습니다. ORE는 이후 안정적인 수익이 보장되는 광물로 종목을 변경했으나 10%의 산출량을 지닌 점성 파이로지레스는 여전히 제2의 ORE를 꿈꾸는 광부들에게는 큰 의미를 갖고 있습니다.
파이로제레스는 우주 전역에서 채굴되는 일반적인 광석입니다. 평균적인 수준의 파이어라이트와 멕살론이 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Вязкий пироксер стал для ОРЭ первой ступенькой к будущему успеху. ОРЭ уже давно переключилась на более доходные руды, но вязкий пироксер, который при переработке даёт на 10% больше полезных минералов, навсегда покорил сердца пилотов, мечтающих стать буровыми магнатами Нового Эдема. Пироксер — распространённый вид руды. Встречается во всех секторах. Богат пиритом и мексаллоном. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176828,10 +176829,10 @@
"radius": 1.0,
"typeID": 28426,
"typeName_de": "Compressed Viscous Pyroxeres",
- "typeName_en-us": "Obsolete Compressed Viscous Pyroxeres",
- "typeName_es": "Obsolete Compressed Viscous Pyroxeres",
+ "typeName_en-us": "Batch Compressed Viscous Pyroxeres",
+ "typeName_es": "Batch Compressed Viscous Pyroxeres",
"typeName_fr": "Pyroxeres visqueux compressé",
- "typeName_it": "Obsolete Compressed Viscous Pyroxeres",
+ "typeName_it": "Batch Compressed Viscous Pyroxeres",
"typeName_ja": "圧縮粘性パイロゼリーズ",
"typeName_ko": "압축된 점성 파이로제레스",
"typeName_ru": "Compressed Viscous Pyroxeres",
@@ -176843,10 +176844,10 @@
"basePrice": 131150.0,
"capacity": 0.0,
"description_de": "Verdichtetes Scordite ist ein naher Verwandter von gewöhnlichem Scordite, mit einem um 5% erhöhten Ertrag. Dieser Mehrgehalt mag unbedeutend erscheinen, ist aber wichtig für neue Bergleute, bei denen jeder ISK zählt. Scordite gehört zu den am häufigsten vorkommenden Erzarten in den zentralen Regionen des bekannten Universums. Es enthält einen moderaten Anteil an Tritanium und Pyerite. Eine gute Wahl für diejenigen, die mit einer Bergbaukarriere beginnen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "La scordite condensée est très proche de sa version classique, mais son rendement est supérieur de 5 %. Si ce bonus peut sembler insignifiant, il est néanmoins très important aux yeux des mineurs novices pour qui chaque ISK compte. La scordite est l'un des minerais les plus courants dans les régions centrales de l'univers connu. Elle contient des proportions non négligeables de tritanium et de pyérite. C'est un choix tout indiqué pour qui commence sa carrière de mineur. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "凝縮スコダイトは、通常のスコダイトとよく似ているが、無機物の含有量が5%多い。取るに足りない差のようだが、1 ISKでも多く稼ぎたい駆け出しの採掘者にとっては大きな意味がある。\r\n\nスコダイトは、既知宇宙の中心宙域に普及している最も一般的な鉱石である。かなりの量のトリタニウムとパイライトが採れる。採掘初心者に適した鉱石。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "일반적인 스코다이트와 유사한 성질을 지닌 광석으로 산출량이 5% 가량 더 많습니다. 비록 큰 차이는 아니지만 1 ISK라도 더 벌고자 하는 자들 사이에서 인기가 높습니다.
스코다이트는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 다량의 트리타늄과 파이어라이트가 함유되어 있습니다. 채굴을 시작한지 얼마 안된 초보자들에게 적합한 광석입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Уплотнённый скордит — близкий родственник обычного скордита, однако концентрация полезных минералов в нём на 5% выше. Такая разница может показаться незначительной, но только не начинающим буровикам, для которых важен каждый заработанный ISK. Скордит — одна из самых распространённых руд в центральных секторах известной части вселенной. В нём содержится довольно много тритания и пирита. Отличный выбор для тех, кто решил начать карьеру пилота-буровика. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176861,10 +176862,10 @@
"radius": 1.0,
"typeID": 28427,
"typeName_de": "Compressed Condensed Scordite",
- "typeName_en-us": "Obsolete Compressed Condensed Scordite",
- "typeName_es": "Obsolete Compressed Condensed Scordite",
+ "typeName_en-us": "Batch Compressed Condensed Scordite",
+ "typeName_es": "Batch Compressed Condensed Scordite",
"typeName_fr": "Scordite condensée compressée",
- "typeName_it": "Obsolete Compressed Condensed Scordite",
+ "typeName_it": "Batch Compressed Condensed Scordite",
"typeName_ja": "圧縮凝縮スコダイト",
"typeName_ko": "압축된 농축 스코다이트",
"typeName_ru": "Compressed Condensed Scordite",
@@ -176876,10 +176877,10 @@
"basePrice": 137400.0,
"capacity": 0.0,
"description_de": "Massives Scordite war aufgrund seiner gegenüber normalem Scordite 10% höheren Mineralausbeute ein legendärer Stoff in den frühen Tagen der Erforschung des Alls. Obwohl es in Bezug auf seinen Wert schon lange von anderen Erzen abgelöst wurde, hat es immer noch seinen Platz in den Herzen der Bergbauveteranen. Scordite gehört zu den am häufigsten vorkommenden Erzarten in den zentralen Regionen des bekannten Universums. Es enthält einen moderaten Anteil an Tritanium und Pyerite. Eine gute Wahl für diejenigen, die mit einer Bergbaukarriere beginnen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "La scordite massive est une légende des débuts de la conquête spatiale, en raison de son rendement minéral 10 % supérieur à celui de la scordite classique. Si sa valeur a depuis longtemps fléchi au profit d'autres minerais, la scordite massive reste gravée dans le cœur des mineurs vétérans. La scordite est l'un des minerais les plus courants dans les régions centrales de l'univers connu. Elle contient des proportions non négligeables de tritanium et de pyérite. C'est un choix tout indiqué pour qui commence sa carrière de mineur. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "巨大スコダイトは、標準的なスコダイトよりも10%高い鉱石産出量のため、宇宙探検の草創期に誰もが鉱脈の発見を夢見た鉱石。既にその座を他の鉱石に明け渡して久しいが、古株の採掘者たちの心では今も特別な位置を占めている。\r\n\nスコダイトは、既知宇宙の中心宙域に普及している最も一般的な鉱石である。かなりの量のトリタニウムとパイライトが採れる。採掘初心者に適した鉱石。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "우주 개척 초기에 높은 가치를 지녔던 광석으로 일반 스코다이트에 비해 산출량이 10% 더 많습니다. 더욱 가치가 높은 광석들이 발견되며 과거의 영광은 잃었으나 여전히 마음 한구석을 설레게 하는 재주를 지니고 있습니다.
스코다이트는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 다량의 트리타늄과 파이어라이트가 함유되어 있습니다. 채굴을 시작한지 얼마 안된 초보자들에게 적합한 광석입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "На заре освоения космоса о плотном скордите ходили легенды: в нём на 10% больше полезных минералов, чем в обычном. Хотя с тех пор были открыты другие, более ценные виды руды, плотный скордит всё ещё занимает особое место в сердцах опытных буровиков. Скордит — одна из самых распространённых руд в центральных секторах известной части вселенной. В нём содержится довольно много тритания и пирита. Отличный выбор для тех, кто решил начать карьеру пилота-буровика. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176895,10 +176896,10 @@
"radius": 1.0,
"typeID": 28428,
"typeName_de": "Compressed Massive Scordite",
- "typeName_en-us": "Obsolete Compressed Massive Scordite",
- "typeName_es": "Obsolete Compressed Massive Scordite",
+ "typeName_en-us": "Batch Compressed Massive Scordite",
+ "typeName_es": "Batch Compressed Massive Scordite",
"typeName_fr": "Scordite massive compressée",
- "typeName_it": "Obsolete Compressed Massive Scordite",
+ "typeName_it": "Batch Compressed Massive Scordite",
"typeName_ja": "圧縮マッシブスコダイト",
"typeName_ko": "압축된 균열 스코다이트",
"typeName_ru": "Compressed Massive Scordite",
@@ -176910,10 +176911,10 @@
"basePrice": 124850.0,
"capacity": 0.0,
"description_de": "Scordite gehört zu den am häufigsten vorkommenden Erzarten in den zentralen Regionen des bekannten Universums. Es enthält einen moderaten Anteil an Tritanium und Pyerite. Eine gute Wahl für diejenigen, die mit einer Bergbaukarriere beginnen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "La scordite est l'un des minerais les plus courants dans les régions centrales de l'univers connu. Elle contient des proportions non négligeables de tritanium et de pyérite. C'est un choix tout indiqué pour qui commence sa carrière de mineur. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "スコダイトは、既知宇宙の中心宙域に普及している最も一般的な鉱石である。かなりの量のトリタニウムとパイライトが採れる。採掘初心者に適した鉱石。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "스코다이트는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 다량의 트리타늄과 파이어라이트가 함유되어 있습니다. 채굴을 시작한지 얼마 안된 초보자들에게 적합한 광석입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Скордит — одна из самых распространённых руд в центральных секторах известной части вселенной. В нём содержится довольно много тритания и пирита. Отличный выбор для тех, кто решил начать карьеру пилота-буровика. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176928,10 +176929,10 @@
"radius": 1.0,
"typeID": 28429,
"typeName_de": "Compressed Scordite",
- "typeName_en-us": "Obsolete Compressed Scordite",
- "typeName_es": "Obsolete Compressed Scordite",
+ "typeName_en-us": "Batch Compressed Scordite",
+ "typeName_es": "Batch Compressed Scordite",
"typeName_fr": "Scordite compressée",
- "typeName_it": "Obsolete Compressed Scordite",
+ "typeName_it": "Batch Compressed Scordite",
"typeName_ja": "圧縮スコダイト",
"typeName_ko": "압축된 스코다이트",
"typeName_ru": "Compressed Scordite",
@@ -176943,10 +176944,10 @@
"basePrice": 52500.0,
"capacity": 0.0,
"description_de": "Anhäufungen von Veldspar mit einer 5% höheren Ausbeute, auch konzentriertes Veldspar genannt, werden häufig in Regionen gefunden, in denen es normales Veldspar bereits im Überfluss gibt. Veldspar ist die am häufigsten vorkommende Erzart in den zentralen Regionen des bekannten Universums. Da Veldspar eine große Menge des häufig gebrauchten Minerals Tritanium enthält, besteht noch immer eine ständige Nachfrage. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Il est possible de trouver des blocs de veldspar concentré dont le rendement est supérieur de 5 % à celui du veldspar standard dans les zones où celui-ci est très abondant. Le veldspar est l'un des minerais les plus courants dans les régions centrales de l'univers connu. La demande en veldspar ne faiblit jamais car il contient du tritanium, l'un des minéraux les plus exploités de l'amas. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "高濃度ベルドスパーは産出量が5%多いベルドスパーが凝集して塊になったもので、通常のベルドスパーが豊富な宙域で時折発見される。\r\n\nベルドスパーは既知宇宙の中心宙域に最も普及している鉱石で、どこに行っても見つけることができる。しかし用途の広い無機物であるトリタニウムを多く含むため、需要は絶えない。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "벨드스파 매장량이 풍부한 지역에서 발견되는 광석으로 일반적인 벨드스파에 비해 산출량이 5% 더 높습니다.
벨드스파는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 트리타늄의 주요 공급원입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "В областях, изобилующих вельдспаром, иногда встречаются залежи концентрированного вельдспара — в нём на 5% больше полезных минералов. Вельдспар — самая распространённая руда в центральных секторах известной части вселенной. Вельдспар содержит большое количество повсеместно используемого тритания, поэтому спрос на него никогда не падает. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176962,10 +176963,10 @@
"radius": 1.0,
"typeID": 28430,
"typeName_de": "Compressed Concentrated Veldspar",
- "typeName_en-us": "Obsolete Compressed Concentrated Veldspar",
- "typeName_es": "Obsolete Compressed Concentrated Veldspar",
+ "typeName_en-us": "Batch Compressed Concentrated Veldspar",
+ "typeName_es": "Batch Compressed Concentrated Veldspar",
"typeName_fr": "Veldspar concentré compressé",
- "typeName_it": "Obsolete Compressed Concentrated Veldspar",
+ "typeName_it": "Batch Compressed Concentrated Veldspar",
"typeName_ja": "圧縮高濃度ベルドスパー",
"typeName_ko": "압축된 밀집 벨드스파",
"typeName_ru": "Compressed Concentrated Veldspar",
@@ -176977,10 +176978,10 @@
"basePrice": 55000.0,
"capacity": 0.0,
"description_de": "In Asteroiden von überdurchschnittlicher Größe kann der immense Druck normales Veldspar in sogenanntes „dichtes Veldspar“ umwandeln und dabei die Mineralausbeute um 10% erhöhen. Veldspar ist die am häufigsten vorkommende Erzart in den zentralen Regionen des bekannten Universums. Da Veldspar eine große Menge des häufig gebrauchten Minerals Tritanium enthält, besteht noch immer eine ständige Nachfrage. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Sur les astéroïdes de grande taille, la pression intense peut transformer le veldspar classique en veldspar dense, dont le rendement est supérieur de 10 %. Le veldspar est l'un des minerais les plus courants dans les régions centrales de l'univers connu. La demande en veldspar ne faiblit jamais car il contient du tritanium, l'un des minéraux les plus exploités de l'amas. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "比較的大型のアステロイドにおいて、通常のベルドスパーに地中で強い圧力が加わって生成されるのが高密度ベルドスパーと呼ばれるもので、鉱石産出量が10%増える。\r\n\nベルドスパーは既知宇宙の中心宙域に最も普及している鉱石で、どこに行っても見つけることができる。しかし用途の広い無機物であるトリタニウムを多く含むため、需要は絶えない。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "대형 소행성에서 벨드스파가 압축되면 생성되는 광석으로 일반적인 벨드스파에 비해 산출량이 10% 더 많습니다.
벨드스파는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 트리타늄의 주요 공급원입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "В астероидах размером выше среднего обычный вельдспар под воздействием давления превращается в так называемый плотный вельдспар. В последнем на 10% больше полезных минералов. Вельдспар — самая распространённая руда в центральных секторах известной части вселенной. Вельдспар содержит большое количество повсеместно используемого тритания, поэтому спрос на него никогда не падает. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -176995,10 +176996,10 @@
"radius": 1.0,
"typeID": 28431,
"typeName_de": "Compressed Dense Veldspar",
- "typeName_en-us": "Obsolete Compressed Dense Veldspar",
- "typeName_es": "Obsolete Compressed Dense Veldspar",
+ "typeName_en-us": "Batch Compressed Dense Veldspar",
+ "typeName_es": "Batch Compressed Dense Veldspar",
"typeName_fr": "Veldspar dense compressé",
- "typeName_it": "Obsolete Compressed Dense Veldspar",
+ "typeName_it": "Batch Compressed Dense Veldspar",
"typeName_ja": "圧縮高密度ベルドスパー",
"typeName_ko": "압축된 응축 벨드스파",
"typeName_ru": "Compressed Dense Veldspar",
@@ -177010,10 +177011,10 @@
"basePrice": 50000.0,
"capacity": 0.0,
"description_de": "Veldspar ist die am häufigsten vorkommende Erzart in den zentralen Regionen des bekannten Universums. Da Veldspar eine große Menge des häufig gebrauchten Minerals Tritanium enthält, besteht noch immer eine ständige Nachfrage. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Le veldspar est l'un des minerais les plus courants dans les régions centrales de l'univers connu. La demande en veldspar ne faiblit jamais car il contient du tritanium, l'un des minéraux les plus exploités de l'amas. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "ベルドスパーは既知宇宙の中心宙域に最も普及している鉱石で、どこに行っても見つけることができる。しかし用途の広い無機物であるトリタニウムを多く含むため、需要は絶えない。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "벨드스파는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 트리타늄의 주요 공급원입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Вельдспар — самая распространённая руда в центральных секторах известной части вселенной. Вельдспар содержит большое количество повсеместно используемого тритания, поэтому спрос на него никогда не падает. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -177028,10 +177029,10 @@
"radius": 1.0,
"typeID": 28432,
"typeName_de": "Compressed Veldspar",
- "typeName_en-us": "Obsolete Compressed Veldspar",
- "typeName_es": "Obsolete Compressed Veldspar",
+ "typeName_en-us": "Batch Compressed Veldspar",
+ "typeName_es": "Batch Compressed Veldspar",
"typeName_fr": "Veldspar compressé",
- "typeName_it": "Obsolete Compressed Veldspar",
+ "typeName_it": "Batch Compressed Veldspar",
"typeName_ja": "圧縮ベルドスパー",
"typeName_ko": "압축된 벨드스파",
"typeName_ru": "Compressed Veldspar",
@@ -177043,10 +177044,10 @@
"basePrice": 760000.0,
"capacity": 0.0,
"description_de": "Interstellares Eis bildet sich durch die Ablagerung von Gasmolekülen auf Partikeln aus Silikatstaub. Wegen seiner einzigartigen chemischen Zusammensetzung und der Umstände, unter denen es sich bildet, enthält Blue Ice mehr Sauerstoff-Isotope als jeder andere Eis-Asteroid. \n\nDieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les glaces interstellaires se forment par accumulation de molécules de gaz sur des particules de poussière de silice. La glace bleue, de par sa composition chimique unique et les conditions liées à sa formation, contient plus d'isotopes d'oxygène que les autres astéroïdes de glace.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice contains more oxygen isotopes than any other ice asteroid.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "星間氷は、ケイ酸塩の微粒子の周囲にガス分子が付着することで形成される。ブルーアイスは、特異な状況下で形成され、独特の化学組成を持ち、他のアイスアステロイドに比べて酸素同位体の含有率が高い。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "성간 아이스는 규산염 입자와 가스 분자가 혼합됨으로써 생성됩니다. 블루 아이스는 특수 환경적인 요인으로 인해 산소 자원이 더욱 풍부하게 함유 되어있습니다.
이 광석은 일반적인 광물보다 더욱 압착되어 있어 밀도가 높습니다.",
"description_ru": "Межзвездный лед образуется в результате сращения молекул газа и частиц силикатной пыли. Благодаря уникальному химическому составу и условиям, в которых они образуются, голубой лед содержит больше изотопов кислорода (Oxygen Isotopes), чем любой другой ледяной астероид.\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177076,10 +177077,10 @@
"basePrice": 3760000.0,
"capacity": 0.0,
"description_de": "Interstellares Eis bildet sich durch die Ablagerung von Gasmolekülen auf Partikeln aus Silikatstaub. Diese kristallinen Formationen können in vielen Eisfeldern gefunden werden und sind im Universium als Hauptquelle für Helium-Isotope bekannt. Dieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les glaces interstellaires se forment par accumulation de molécules de gaz sur des particules de poussière de silice. Il est possible de trouver de telles formations cristallines tout autour d'un champ de glace. Elles sont la source principale de l'univers en matière d'isotopes d'hélium.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field, and are known as the universe's primary source of helium isotopes.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "星間浮遊氷は、ガス状分子がケイ酸塩の粉塵に付着することによって形成される。こうした浮遊氷塊群は、星間アイスフィールドとして広い範囲に点在し、宇宙空間における主なヘリウム同位体供給源となっている。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "성간 아이스는 규산염 입자와 가스 분자가 혼합됨으로써 생성됩니다. 이러한 크리스탈 분자구조는 아이스지대에서 흔히 볼 수 있으며 헬리움 동위원소의 주요 공급원입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Межзвездный лед образуется в результате сращения молекул газа и частиц силикатной пыли. Эти кристаллические образования можно обнаружить вокруг многих ледяных полей, они известны как основной источник изотопов гелия (Helium Isotopes).\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177109,10 +177110,10 @@
"basePrice": 15500000.0,
"capacity": 0.0,
"description_de": "Dark Glitter ist eine der seltensten interstellaren Eisformen und bildet sich nur in Gebieten mit großen Mengen an Reststrom. Man weiß nur wenig über seine genaue Entstehung. Die gigantischen Mengen an Flüssigem Ozon, die man in einem dieser Brocken findet, machen es sowohl für Sternen-Physiker als auch für Chemiker zu einem faszinierenden Mysterium. Zusätzlich enthält es große Mengen an Schwerem Wasser und eine geringe Menge an Strontium-Clathraten.\n\n\n\nDieses Erz wurde zu einer um ein Vielfaches dichtere Variante komprimiert.",
- "description_en-us": "Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "L'éclat sombre est l'une des glaces interstellaires les plus rares de l'amas. Elle se forme exclusivement dans les zones spatiales balayées de violents courants électriques résiduels. Le mystère géologique de la formation de l'éclat sombre, épaissi par la quantité phénoménale d'ozone liquide contenue au cœur de ces petites roches, n'en finit pas d'intriguer physiciens et chimistes stellaires de New Eden. Outre l'ozone, cette glace rare est également composée en majorité d'eau lourde et d'une proportion substantielle de clathrates de strontium. Ce minerai a été compressé et densifié.",
- "description_it": "Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "Dark glitter is one of the rarest of the interstellar ices, formed only in areas with large amounts of residual electrical current. Little is known about the exact way in which it comes into being; the staggering amount of liquid ozone to be found inside one of these rocks makes it an intriguing mystery for stellar physicists and chemists alike. In addition, it contains large amounts of heavy water and a decent measure of strontium clathrates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "ダークグリッターは極めて希少な星間浮遊氷。膨大な浮遊電流が存在する空間でのみ形成される。形成過程はほとんど解明されていないが、液体オゾンを大量に含有しているものが発見され、物理学者や化学者たちがそのミステリアスな組成に多大な関心を寄せている。また、重水の含有率が高く、かなりの量のストロンチウム化合物も含んでいる。\r\n\nこの鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "다크 글리터은 희귀 성간 아이스에서 추출되는 자원으로 잔여 전류가 흐르는 지점에서만 생성됩니다. 생성 이유에 대해서는 정확히 알려져 있지 않으나 대량의 액화 오존을 담고 있는 탓에 우주 물리학자 및 화학자들 조차 그 정체를 파악하지 못하고 있습니다. 그 외에도 대량의 중수와 상당량의 스트론튬 클라스레이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Dark glitter — один из редчайших типов межзвездного льда, образующийся исключительно в областях с большой концентрацией остаточных электрических потоков. Данных о том, как именно происходит его образование, недостаточно. Потрясающее количество жидкого озона (Liquid Ozone), находящегося внутри этих глыб, превращает их в интригующую загадку для астрофизиков и астрохимиков. Кроме того, в нем содержится большое количество тяжелой воды и приличное количество клатратов стронция.\n\n\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177142,10 +177143,10 @@
"basePrice": 4660000.0,
"capacity": 0.0,
"description_de": "Interstellares Eis bildet sich durch die Ablagerung von Gasmolekülen auf Partikeln aus Silikatstaub. Diese kristallinen Formationen können in vielen Eisfeldern gefunden werden und sind im Universum als Hauptquelle für Helium-Isotope bekannt. Aufgrund von Umweltfaktoren sind die Isotop-Ablagerungen dieses Fragments sogar höher als die seiner normalen Gegenstücke.\n\n\n\nDieses Erz wurde zu einer um ein Vielfaches dichtere Variante komprimiert.",
- "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les glaces interstellaires se forment par accumulation de molécules gazeuses sur des particules de poussière de silicate. Ces formations cristallines, qui constituent la principale source d'approvisionnement galactique en isotopes d'hélium, sont éparpillées à travers les champs de glace de l'amas. Les dépôts d'isotope de ce fragment se sont enrichis sous l'influx de facteurs environnementaux favorables. Ce minerai a été compressé et densifié.",
- "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. These crystalline formations can be found scattered around many an ice field and are known as the universe's primary source of helium isotopes. Due to environmental factors, this fragment's isotope deposits have become even richer than its regular counterparts'.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "星間氷は、ケイ酸塩の微粒子の周囲にガス分子が付着することで形成される。こうした浮遊氷塊群は、星間アイスフィールドとして広い範囲に点在し、宇宙空間における主なヘリウム同位体供給源となっている。これは、その生成環境のために、通常の浮遊氷塊よりもさらに豊かな同位体供給源となっている。この鉱石は圧縮されているため、成分濃度が非常に高い。\r\n\nこの鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "성간 아이스는 규산염 입자와 가스 분자가 혼합됨으로써 생성됩니다. 이러한 크리스탈 분자구조는 아이스지대에서 흔히 볼 수 있으며 헬리움 동위원소의 주요 공급원입니다. 이 물체에는 여러가지 환경적인 요인으로 인해 동위원소 자원이 더욱 풍부하게 함유 되어있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Межзвёздный лёд образуется в результате сращения молекул газа и частиц силикатной пыли. Эти кристаллические образования можно найти разбросанными в множесте скоплений льда; известно, что во вселенной они — основной источник изотопов гелия. Из-за влияния факторов окружающей среды этот фрагмент содержит еще большее количество изотопов, нежели обычный лёд.\n\n\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177175,10 +177176,10 @@
"basePrice": 8250000.0,
"capacity": 0.0,
"description_de": "Ziemlich selten und sehr wertvoll: Eisformationen vom Typ Gelidus sind eine ergiebige Quelle von Strontium Clathrate und gehören zu den seltensten Feststoffen, die man im Universum finden kann. Zusätzlich enthalten sie eine ungewöhnlich hohe Konzentration an Heavy Water und Liquid Ozone. Dieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Très précieuses et relativement rares, les formations glaciaires de type gelidus sont des sources importantes de clathrates de strontium, l'un des solides à base de glace les plus rares de l'univers. Elles contiennent en outre une forte concentration d'eau lourde et d'ozone liquide.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "Fairly rare and very valuable, Gelidus-type ice formations are a large-scale source of strontium clathrates, one of the rarest ice solids found in the universe, in addition to which they contain unusually large concentrations of heavy water and liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "非常に希少で価値も高い浮遊氷塊。ゲリドゥスに属する浮遊氷塊は大量のストロンチウム包摂化合を含み、大抵の場合は重水、液体オゾンの含有密度も極めて高くなっている。まれにしか発見できない氷塊。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "희귀하게 발견되는 겔리더스 결빙은 스트론튬 클라스레이트의 주원천이며 대량의 중수와 액화 오존 또한 포함하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Довольно редкий и очень ценный лед Gelidus содержит большое количество клатратов стронция (Strontium Clathrates), одного из редчайших твердых льдов во вселенной. Он также содержит необычайно большое количество тяжелой воды (Heavy Water) и жидкого озона (Liquid Ozone).\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177208,10 +177209,10 @@
"basePrice": 760000.0,
"capacity": 0.0,
"description_de": "Interstellares Eis bildet sich durch die Ablagerung von Gasmolekülen auf Partikeln aus Silikatstaub. Glacial Masses sind dafür bekannt, Wasserstoff-Isotope im Überfluss zu enthalten, und zusätzlich Spuren von Heavy Water und Liquid Ozone. \n\nDieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les glaces interstellaires se forment par accumulation de molécules de gaz sur des particules de poussière de silice. Les masses de glace sont réputées pour contenir de grandes quantités d'isotopes d'hydrogène ainsi que des traces d'eau lourde et d'ozone liquide.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, in addition to smatterings of heavy water and liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "星間氷は、ケイ酸塩の微粒子の周囲にガス分子が付着することで形成される。グレイシャルの塊は大量の水素同位体を含み、少量ではあるが重水、液体オゾンも含有している。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "성간 아이스는 규산염 입자와 가스 분자가 혼합됨으로써 생성됩니다. 글레이셜 매스는 풍부한 양의 수소 동위원소를 지녔으며 소량의 중수와 액화오존 또한 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Межзвездный лед образуется в результате сращения молекул газа и частиц силикатной пыли. Известно, что в ледяных массах в изобилии содержатся изотопы водорода (Hydrogen Isotopes), в дополнение к небольшому числу тяжелой воды (Heavy Water) и жидкого озона (Liquid Ozone).\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177241,10 +177242,10 @@
"basePrice": 15250000.0,
"capacity": 0.0,
"description_de": "Eisformationen wie diese, die eine große Menge an Heavy Water und Liquid Ozone enthalten, und in Gebieten mit hoher elektromagnetischer Aktivität vorkommen, werden durch starken Stromfluss gebildet. Glare Crusts enthalten auch einen kleinen Anteil an Strontium Clathrate. Dieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les formations glaciaires comme celle-ci se forment spontanément dans des zones à forte concentration magnétique, sous l'effet de puissants courants électriques. Elles contiennent de grandes quantités d'eau lourde et d'ozone liquide. La surface éclatante contient des clathrates de strontium en faible quantité.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "In areas with high concentrations of electromagnetic activity, ice formations such as this one, containing large amounts of heavy water and liquid ozone, are spontaneously formed during times of great electric flux. Glare crust also contains a small amount of strontium clathrates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "非常に強い電磁場が存在する空間で形成されるアイス。大量の重水、液体オゾンを含み、電流が高密度で流れた際に自然形成される。グレアクラストは少量ではあるがストロンチウム化合物も含有している。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "전자기 활동이 활발하게 이루어지는 지역에서 산발적으로 생성되는 아이스 자원으로 다량의 중수 및 액화 오존을 함유하고 있습니다. 글레어 크러스트은 소량의 스트론튬 클라스레이트 또한 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Такие ледяные образования формируются в областях с высокой концентрацией электромагнитной активности под влиянием сильных электрических потоков. Они содержат большое количество тяжелой воды (Heavy Water) и жидкого озона (Liquid Ozone). В ледяной корке также содержится небольшое количество клатратов стронция (Strontium Clathrates).\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177274,10 +177275,10 @@
"basePrice": 4500000.0,
"capacity": 0.0,
"description_de": "Krystallos sind die ergiebigste bekannte Quelle an Strontium Clathrate. Diese Eisformationen bilden sich nur in Gebieten, in denen ganz spezielle Umweltfaktoren zusammenspielen. Krystallos enthalten auch ziemlich viel Liquid Ozone.\n\n\n\nDieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les formations glaciaires de krystallos sont les meilleures sources connues de clathrates de strontium de l'univers. Elles se trouvent uniquement dans des zones présentant des facteurs environnementaux très particuliers. Les composés de krystallos peuvent également contenir des traces d'ozone liquide.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "The universe's richest known source of strontium clathrates, Krystallos ice formations are formed only in areas where a very particular combination of environmental factors are at play. Krystallos compounds also include quite a bit of liquid ozone.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "宇宙で最もストロンチウム化合物を豊富に含む物質であるクリストーロス氷塊は、いくつもの環境要因が重なった非常に特殊な条件下でのみ形成される。大量の液体オゾンも含有している。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "크리스탈로스는 특정 환경에서만 추출되는 아이스 물질로 막대한 양의 스트론튬 클라스레이트를 함유하고 있습니다. 그 외에도 상당한 양의 액화 오존을 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Самый богатый источник клатратов стронция (Strontium Clathrates) в исследованном космосе — ледяные образования Krystallos, которые формируются только под влиянием особой комбинацией факторов окружающей среды. В соединениях Krystallos также содержится существенное количество жидкого озона (Liquid Ozone).\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177307,10 +177308,10 @@
"basePrice": 1160000.0,
"capacity": 0.0,
"description_de": "\n\nWenn Sternverschmelzungen in der Nähe hoher Silikatstaub-Konzentrationen auftreten, so wie man sie in interstellaren Eisfeldern findet, bildet sich White Glaze. Während White Glaze ungewöhnlich reich an N-14 und anderen stabilen Stickstoff-Isotopen ist, sind einige seltene Teile wie dieses frei von radioaktiven Fremdstoffen und enthalten deswegen mehr Isotope als ihre unreinen Gegenstücke.\n\n\n\nDieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts.\r\n\r\nThis ore has been compressed into a much more dense version.\r\n",
- "description_es": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts.\r\n\r\nThis ore has been compressed into a much more dense version.\r\n",
+ "description_en-us": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "C'est lorsqu'un processus de fusion stellaire a lieu près de grandes concentrations de poussière de silice, telles que celles qu'on trouve dans les champs de glace interstellaire, que se forme de la roche vitreuse. Cette dernière présente une concentration extrêmement forte en azote 14 ainsi qu'en autres isotopes d'azote stables, mais quelques rares fragments, tels que celui-ci, ne contiennent aucun d'élément radioactif et sont donc plus riches en isotopes que la roche impure.\n\nCe minerai a été condensé en une version beaucoup plus dense.\n",
- "description_it": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts.\r\n\r\nThis ore has been compressed into a much more dense version.\r\n",
+ "description_it": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. While White Glaze generally is extremely high in nitrogen-14 and other stable nitrogen isotopes, a few rare fragments, such as this one, have stayed free of radioactive contaminants and are thus richer in isotopes than their more impure counterparts.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "\n\n星間氷フィールドで見られるような高密度のケイ酸塵の近くで恒星核融合反応が発生すると、ホワイトグレイズという物質が形成される。通常のホワイトグレイズは窒素14などの安定した窒素同位体を大量に含んでいるが、このように放射性の汚染物質を全く含まず、純度の低い他のホワイトグレイズに比べて同位体含有率が高いものがまれに存在する。この鉱石は圧縮されているため、成分濃度が非常に高い。\r\n",
"description_ko": "규산염 가루가 고도로 밀집된 지역 근방의 별에서 핵융합 과정이 이루어질 때 화이트 글레이즈가 형성됩니다. 일반적으로 화이트 글레이즈는 질소-14 및 안정된 질소 동위원소가 고농도로 함유되어있습니다. 그러나 이 희귀한 화이트 글레이즈는 방사능으로 오염되지 않아 동위원소가 더욱 풍부합니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.\n\n",
"description_ru": "\n\nКогда в недрах звезды, окруженной областями с высокой концентрацией силикатной пыли (такими, как межзвездные ледяные поля) происходит процесс ядерного синтеза, образуется вещество, известное как White Glaze. White Glaze содержит особенно много азота-14 и других его стабильных изотопов (Nitrogen Isotopes), но в редких случаях фрагменты этого вещества (такие как этот) избегают заражения радиоактивными частицами и содержат еще больше изотопов, чем их обычные варианты.\n\n\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177340,10 +177341,10 @@
"basePrice": 1160000.0,
"capacity": 0.0,
"description_de": "Interstellares Eis bildet sich durch die Ablagerung von Gasmolekülen auf Partikeln aus Silikatstaub. Glacial Masses sind dafür bekannt, Wasserstoff-Isotope im Überfluss zu enthalten. Die hohe Trübung der Oberfläche dieser bestimmten Anhäufung bedeutet aber, dass es deutlich mehr davon enthält als sein raueres Gegenstück.\n\n\n\nDieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les glaces interstellaires se forment par accumulation de molécules de gaz sur des particules de poussière de silice. Les masses de glace sont réputées pour contenir de grandes quantités d'isotopes d'hydrogène, mais la diffusion superficielle de cette masse-ci, très importante, signifie que sa concentration est beaucoup plus forte que celle des masses classiques.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Glacial masses are known to contain hydrogen isotopes in abundance, but the high surface diffusion on this particular mass means it has considerably more than its coarser counterparts.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "星間氷は、ケイ酸塩の微粒子の周囲にガス分子が付着することで形成される。通常のグレイシャルの塊は水素同位体を大量に含んでいるが、スムーズグレイシャルの塊は活発な表面拡散からも分かるように、他のグレイシャルの塊よりもさらに水素同位体の含有率が高い。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "성간 아이스는 규산염 입자와 가스 분자가 혼합됨으로써 생성됩니다. 모든 빙결 물체에는 수소 동위원소가 풍부하지만 이 물체의 높은 표면 확산도는 상대적으로 더욱 많은 수소 동위원소를 가지고 있다는 것을 시사합니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Межзвездный лед образуется в результате сращения молекул газа и частиц силикатной пыли. Известно, что ледяные массы в изобилии содержат изотопы водорода (Hydrogen Isotopes), но высокая поверхностная диффузия на поверхности этой конкретной массы означает, что их концентрация значительно выше, нежели в ее обычных вариантах.\n\n\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177373,10 +177374,10 @@
"basePrice": 1160000.0,
"capacity": 0.0,
"description_de": "\n\nInterstellares Eis bildet sich durch die Ablagerung von Gasmolekülen auf Partikeln aus Silikatstaub. Wegen seiner einzigartigen chemischen Zusammensetzung und der Umstände, unter denen es sich bildet, enthält Blue Ice unter normalen Umständen mehr Sauerstoff-Isotope als jeder andere Eis-Asteroid. Diese spezielle Formation ist schon alt und enthält daher noch mehr Isotope als seine jüngeren Verwandten. \n\nDieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings.\r\n\r\nThis ore has been compressed into a much more dense version.\r\n",
- "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings.\r\n\r\nThis ore has been compressed into a much more dense version.\r\n",
+ "description_en-us": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "Les glaces interstellaires se forment par accumulation de molécules de gaz sur des particules de poussière de silice. La glace bleue, de par sa composition chimique unique et les conditions liées à sa formation, contient normalement plus d'isotopes d'oxygène que les autres astéroïdes de glace. Cette formation-ci est ancienne et en contient donc plus que la glace bleue classique.\n\nCe minerai a été condensé en une version beaucoup plus dense.\n",
- "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings.\r\n\r\nThis ore has been compressed into a much more dense version.\r\n",
+ "description_it": "Interstellar ices are formed by accretion of gas molecules onto silicate dust particles. Due to its unique chemical composition and the circumstances under which it forms, blue ice will, under normal circumstances, contain more oxygen isotopes than any other ice asteroid. This particular formation is an old one and therefore contains even more than its less mature siblings.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "\n\n星間浮遊氷は、ガス状分子がケイ酸塩の粉塵に付着することによって形成される。特殊な条件下で形成され、特異な組成を持つブルーアイスは、通常の状態でもアイスアステロイドとしては最も酸素同位体の含有率が高い。これは形成されてから長い時間が経過しており、通常のものよりもさらに同位体含有率が高い。この鉱石は圧縮されているため、成分濃度が非常に高い。\r\n",
"description_ko": "성간 아이스는 규산염 입자와 가스 분자가 혼합됨으로써 생성됩니다. 환경적인 요소와 독특한 화학적 성분으로 인해 성간 아이스에서 생성되는 블루 아이스는 더욱 풍부한 양의 산소 동위원소를 함유하고 있습니다. 그 중 응축 블루 아이스는 더 오랜 시간에 거쳐 형성되었기 때문에 일반적인 블루아이스에 비해 미네랄 함량이 높습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.\n\n",
"description_ru": "\n\nМежзвездный лед образуется в результате сращения молекул газа и частиц силикатной пыли. Благодаря уникальному химическому составу и условиям, в которых они образуются, голубой лед содержит больше изотопов кислорода (Oxygen Isotopes), чем любой другой ледяной астероид. Это образование уже довольно старое и содержит даже больше полезных веществ по сравнению с его обычными вариантами.\n\n\n\nЭта руда была спрессована в более плотный вариант.",
@@ -177406,10 +177407,10 @@
"basePrice": 760000.0,
"capacity": 0.0,
"description_de": "Wenn Sternverschmelzungen in der Nähe hoher Silikatstaub-Konzentrationen auftreten, so wie man sie in interstellaren Eisfeldern findet, bildet sich White Glaze. White Glaze enthält besonders viel N-14 und andere stabile Stickstoff-Isotope und ist deshalb notwendig für den dauerhaften Betrieb bestimmter Kontrolltürme. \n\nDieses Erz wurde komprimiert und hat dadurch eine viel höhere Dichte.",
- "description_en-us": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower.\r\n\r\nThis ore has been compressed into a much more dense version.",
- "description_es": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_en-us": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_fr": "C'est lorsqu'un processus de fusion stellaire a lieu près de grandes concentrations de poussière de silice, telles que celles qu'on trouve dans les champs de glace interstellaire, que se forme de la roche vitreuse. La roche vitreuse contient une concentration extrêmement forte d'azote 14 ainsi que d'autres isotopes d'azote stables. Elle est l'un des composants indispensables pour les opérations de longue durée effectuées par certaines tours de contrôle.\n\nCe minerai a été condensé en une version beaucoup plus dense.",
- "description_it": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower.\r\n\r\nThis ore has been compressed into a much more dense version.",
+ "description_it": "When star fusion processes occur near high concentrations of silicate dust, such as those found in interstellar ice fields, the substance known as White Glaze is formed. White Glaze is extremely high in nitrogen-14 and other stable nitrogen isotopes, and is thus a necessity for the sustained operation of certain kinds of control tower.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"description_ja": "星間氷フィールドで見られるような高密度のケイ酸塵の近くで恒星核融合反応が発生すると、ホワイトグレイズという物質が形成される。ホワイトグレイズは窒素14などの安定した窒素同位体を大量に含有しており、採取には特定の機能を持つコントロールタワーからの継続的な操作が必要となる。この鉱石は圧縮されているため、成分濃度が非常に高い。",
"description_ko": "규산염 가루가 고도로 밀집된 지역 근방의 별에서 핵융합 과정이 이루어질 때 화이트 글레이즈가 형성됩니다. 화이트 글레이즈는 질소-14 및 안정된 질소 동위원소가 고농도로 함유되어있기 때문에 특정한 일부 관제타워의 지속적인 가동에 필수적입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Когда в недрах звезды, окруженной областями с высокой концентрацией силикатной пыли (такими, как межзвездные ледяные поля) происходит процесс ядерного синтеза, образуется вещество, известное как White Glaze. White Glaze содержит особенно много азота-14 и других его стабильных изотопов (Nitrogen Isotopes); поэтому это вещество жизненно необходимо для продолжительной работы некоторых видов башен управления. \n\n\n\nЭта руда была спрессована в более плотный вариант.",
@@ -181500,10 +181501,10 @@
"basePrice": 80000000.0,
"capacity": 0.0,
"description_de": "Ein elektronisches Interface, das entwickelt wurde, um die Stationierung der Rorqual in ihrem Industrie-Modus zu erleichtern. Während sie stationiert ist, wird die Energie aus den Triebwerken der Rorqual in mächtige Schilde, verbesserte Bergbauvorarbeiterstrahlen und eine deutlich verbesserte Koordination von Bergbaudrohnen umgeleitet. Stationierte Rorquals erhalten zudem Zugriff auf eine einzigartige Maschinerie, mit der Asteroiden-Erz und Eis verdichtet werden kann. Die Vorteile der Nutzung dieses Moduls zusammen mit ähnlichen Modulen, die sich auf dieselben Attribute auswirken, werden mit sinkenden Erträgen einhergehen. Hinweis: Kann nur in das Capital-Industrieschiff Rorqual eingebaut werden.",
- "description_en-us": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination. Deployed Rorquals also gain access to special assembly lines which can compress asteroid ore and ice.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
- "description_es": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination. Deployed Rorquals also gain access to special assembly lines which can compress asteroid ore and ice.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
+ "description_en-us": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Rorquals also gain the ability to activate capital compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
+ "description_es": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Rorquals also gain the ability to activate capital compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
"description_fr": "Interface électronique conçue pour faciliter le déploiement du Rorqual en configuration industrielle. En configuration industrielle, l'énergie produite par les moteurs du Rorqual alimente efficacement les gigantesques boucliers défensifs, les salves de contremaîtrise minière et la plateforme de coordination des drones d'extraction. Les Rorqual déployés ont également accès à des chaînes d'assemblage spécialisées, dédiées à la compression des minerais d'astéroïde et de la glace. Les bénéfices de l'utilisation de ce module en complément d'autres modules influant sur les mêmes attributs seront soumis à un rendement décroissant. Remarque : réservé aux vaisseaux capitaux industrielx de classe Rorqual.",
- "description_it": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination. Deployed Rorquals also gain access to special assembly lines which can compress asteroid ore and ice.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
+ "description_it": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Rorquals also gain the ability to activate capital compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
"description_ja": "ロークアルを輸送艦として使用するための電子インターフェイス。展開形態になると、ロークアルから出力したエンジンのエネルギーは、驚異的なシールド防御、採掘支援バーストの改善、採掘専門ドローンの連携の大幅強化に注ぎ込まれる。展開したロークアルは、アステロイドの鉱石やアイスを圧縮することができる特別な作業ラインにもアクセスできるようになる。\n\n\n\nこのモジュールは同属性の効果がある別のモジュールと併用すると、リターン減少の対象となる。\n\n\n\n注:ロークアル採掘支援主力艦にのみ搭載可能。",
"description_ko": "로퀄의 산업 모드 설정을 위한 전자 인터페이스입니다. 모드 활성화 시 엔진에 가용 중인 전력이 실드로 전환되며 채광 버스트 및 채굴 드론의 기능이 향상됩니다. 추가로 광물 및 아이스 압착을 위한 특수 생산라인을 가동할 수 있습니다.
함선에 동일한 속성의 모듈을 함께 장착할 경우 페널티가 부여됩니다.
참고: 로퀄에만 장착할 수 있습니다.",
"description_ru": "Электронный интерфейс, предназначенный для перенаправления мощностей в промышленном корабле типа «Рорквал» В развёрнутом состоянии энергия двигательной установки направляется на мощнейшие щиты корабля, на усиление импульсных систем координации добычи сырья и на значительное улучшение координации буровых дронов. Кроме того, в этом состоянии возможна работа особых сборочных линий, которые могут сжимать добываемую в астероидах руду и лёд. Установка двух и более модулей, влияющих на одну и ту же характеристику, приведёт к снижению эффективности их действия. Примечание: может устанавливаться только на промышленных кораблях большого тоннажа типа «Рорквал».",
@@ -181683,10 +181684,10 @@
"capacity": 30000.0,
"certificateTemplate": 141,
"description_de": "Die Orca wurde als gemeinsame Unternehmung zwischen Outer Ring Excavations und Deep Core Mining Inc. entwickelt, um der Nachfrage der Industrie New Edens nachkommen zu können und eine Plattform zu bieten, von der aus Bergbauoperationen einfach gehandhabt werden können.\n\nDie Orca nutzt größtenteils Technologie, die bereits von ORE bei der Rorqual eingesetzt wurde, und es wurden auch die neusten Verbesserungen von Deep Core Mining integriert. Die Forschungsabteilung hat somit ein Schiff entwickelt, das vielfältige Einsatzmöglichkeiten für verschiedene Operationen und deren Bedürfnisse abdecken kann. ",
- "description_en-us": "The Orca was developed as a joint venture between Outer Ring Excavations and Deep Core Mining Inc as a vessel to help meet the demands of New Eden's industry and provide a flexible platform from which mining operations can be more easily managed.\r\n\r\nThe Orca uses much of the technology developed by ORE for the Rorqual and integrated with the latest advancements from Deep Core Mining research division has developed a vessel which offers a diverse role to all sizes of operations and needs. ",
- "description_es": "The Orca was developed as a joint venture between Outer Ring Excavations and Deep Core Mining Inc as a vessel to help meet the demands of New Eden's industry and provide a flexible platform from which mining operations can be more easily managed.\r\n\r\nThe Orca uses much of the technology developed by ORE for the Rorqual and integrated with the latest advancements from Deep Core Mining research division has developed a vessel which offers a diverse role to all sizes of operations and needs. ",
+ "description_en-us": "The Orca was developed as a joint venture between Outer Ring Excavations and Deep Core Mining Inc as a vessel to help meet the demands of New Eden's industry and provide a flexible platform from which mining operations can be more easily managed.\r\n\r\nThe Orca is also capable of using a large industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Orca having the flexibility to use a number of specialized large compressors.\r\n\r\nThe Orca uses much of the technology developed by ORE for the Rorqual and integrated with the latest advancements from Deep Core Mining research division has developed a vessel which offers a diverse role to all sizes of operations and needs. ",
+ "description_es": "The Orca was developed as a joint venture between Outer Ring Excavations and Deep Core Mining Inc as a vessel to help meet the demands of New Eden's industry and provide a flexible platform from which mining operations can be more easily managed.\r\n\r\nThe Orca is also capable of using a large industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Orca having the flexibility to use a number of specialized large compressors.\r\n\r\nThe Orca uses much of the technology developed by ORE for the Rorqual and integrated with the latest advancements from Deep Core Mining research division has developed a vessel which offers a diverse role to all sizes of operations and needs. ",
"description_fr": "L'Orca a été développé conjointement par Outer Ring Excavations et la Deep Core Mining Inc. pour répondre aux exigences de l'industrie de New Eden et ainsi fournir une plateforme flexible pour une meilleure gestion des opérations d'extraction minière.\n\nUtilisant principalement la technologie mise au point par l'ORE pour le Rorqual et les dernières inventions de la division de recherche de la Deep Core Mining Inc., ce vaisseau peut ainsi remplir diverses fonctions pour toutes sortes d'opérations. ",
- "description_it": "The Orca was developed as a joint venture between Outer Ring Excavations and Deep Core Mining Inc as a vessel to help meet the demands of New Eden's industry and provide a flexible platform from which mining operations can be more easily managed.\r\n\r\nThe Orca uses much of the technology developed by ORE for the Rorqual and integrated with the latest advancements from Deep Core Mining research division has developed a vessel which offers a diverse role to all sizes of operations and needs. ",
+ "description_it": "The Orca was developed as a joint venture between Outer Ring Excavations and Deep Core Mining Inc as a vessel to help meet the demands of New Eden's industry and provide a flexible platform from which mining operations can be more easily managed.\r\n\r\nThe Orca is also capable of using a large industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Orca having the flexibility to use a number of specialized large compressors.\r\n\r\nThe Orca uses much of the technology developed by ORE for the Rorqual and integrated with the latest advancements from Deep Core Mining research division has developed a vessel which offers a diverse role to all sizes of operations and needs. ",
"description_ja": "オルカは、アウターリング発掘調査とディープコア採掘がニューエデンの業界の要求に応じて、採掘作業を管理しやすくするための柔軟なプラットフォームを提供するために協力して開発した。\n\nOREがロークアル向けに開発した技術を大幅に採用すると共に、あらゆる規模の作業とニーズに備えた多様な役目を持つ艦船をディープコア採掘の研究部門が開発した際の最新成果も取り入れている。 ",
"description_ko": "ORE와 딥코어마이닝이 공동 제작한 인더스트리얼로, 뉴에덴 산업계의 요구를 수용하여 효율적인 채굴 작전의 수행이 가능한 범용 플랫폼이 설계되었습니다.
오르카는 딥코어마이닝 연구 부서의 독자적인 기술력과 캐피탈 인더스트리얼인 로퀄의 제작에 사용된 각종 첨단 기술이 적용되어 작전 규모와 상관없이 다양한 역할을 수행할 수 있습니다. ",
"description_ru": "Флагман буровых флотилий типа «Орка» был разработан совместными усилиями Окраинной Рудной Экспедиции и корпорации «Дип Кор Майнинг»; получившийся в итоге корабль полностью удовлетворил потребность галактической промышленности в многофункциональных средствах повышения производительности буровых групп.\n\nМногое в этом проекте было позаимствовано у кораблей типа «Рорквал», выпускаемых ОРЭ; совместив эти технологии с достижениями исследователей «Дип Кор Майнинг», корпорации получили в свое распоряжение судно, которому по плечу задачи любого масштаба и степени сложности. ",
@@ -182977,6 +182978,7 @@
"isDynamicType": 0,
"marketGroupID": 2491,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -183033,6 +183035,7 @@
"isDynamicType": 0,
"marketGroupID": 2500,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -183089,6 +183092,7 @@
"isDynamicType": 0,
"marketGroupID": 2496,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -183145,6 +183149,7 @@
"isDynamicType": 0,
"marketGroupID": 2492,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -183201,6 +183206,7 @@
"isDynamicType": 0,
"marketGroupID": 2497,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -183257,6 +183263,7 @@
"isDynamicType": 0,
"marketGroupID": 2493,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -183313,6 +183320,7 @@
"isDynamicType": 0,
"marketGroupID": 2494,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -183369,6 +183377,7 @@
"isDynamicType": 0,
"marketGroupID": 2498,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -269207,6 +269216,7 @@
"iconID": 3215,
"marketGroupID": 2491,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -305341,7 +305351,7 @@
"description_it": "Engineered as a supplement to its big brother the Cyclone, the Thrasher's tremendous turret capabilities and advanced tracking computers allow it to protect its larger counterpart from smaller, faster menaces.",
"description_ja": "シュラッシャーは、上位バージョンに相当するサイクロンを補完するために開発された。極めて優れたタレットと高性能なトラッキングコンピュータを装備し、Cyclonを高速小型艦の脅威から守る。",
"description_ko": "사이클론의 보좌함으로 설계된 쓰레셔는 강력한 터렛 체계 및 첨단 트래킹 컴퓨터를 탑재하여 자매선인 사이클론을 빠른 기동성을 보유한 소형 함급으로부터 적절하게 보호합니다.",
- "description_ru": "Эсминец типа «Трэшер» предназначен для сопровождения своего старшего брата, «Циклона». Благодаря мощные орудиям и усовершенствованному орудийному вычислителю он способен защищать более крупного компаньона от маленьких и юрких врагов.",
+ "description_ru": "Эсминец типа «Трэшер» предназначен для сопровождения своего старшего брата, «Циклона». Благодаря мощным орудиям и усовершенствованному орудийному вычислителю он способен защищать более крупного компаньона от маленьких и юрких врагов.",
"description_zh": "长尾鲛级的设计是对其兄长飓风级的补充,其强劲的炮台性能和先进的跟踪计算机使它能保护它巨大的兄长不受更小更快的敌船侵袭。",
"descriptionID": 295429,
"graphicID": 2922,
diff --git a/staticdata/fsd_binary/types.2.json b/staticdata/fsd_binary/types.2.json
index 8a6cc0b45..491aada08 100644
--- a/staticdata/fsd_binary/types.2.json
+++ b/staticdata/fsd_binary/types.2.json
@@ -47627,6 +47627,7 @@
"iconID": 21486,
"marketGroupID": 2495,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -47660,6 +47661,7 @@
"iconID": 21484,
"marketGroupID": 2495,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -47693,6 +47695,7 @@
"iconID": 21487,
"marketGroupID": 2499,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -47726,6 +47729,7 @@
"iconID": 21483,
"marketGroupID": 2501,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -47759,6 +47763,7 @@
"iconID": 21485,
"marketGroupID": 2495,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -171216,10 +171221,10 @@
"capacity": 500.0,
"certificateTemplate": 141,
"description_de": "Als im Jahr YC116 neue Wurmlochverbindungen mit geringer Masse in ganz Anoikis aufzutauchen begannen, beauftragte ORE die Ingenieure in den fortschrittlichen Laboren von Outer Ring Development damit, ein Bergbauvorarbeiterschiff zu schaffen, das in der Lage wäre, diese Portale zu durchfliegen und die darin verborgenen Rohstoffe zu bergen. Die Fertigung eines derart kompakten Schiffs bei gleichzeitiger Aufrechterhaltung der Kapazitäten weitaus größerer Orca- und Rorqual-Designs stellte eine signifikante Herausforderung dar, doch resultierte schließlich in einem Schiff, das Bergbauoperationen von Kapselpiloten im gesamten Weltraum beeinflussen könnte. Die Porpoise ist eine kleinere, mobilere und günstigere Bergbauvorarbeiterplattform, die perfekt für die Unterstützung von Bergbauoperationen in Gefahrenzonen im Weltall eignet. Verbündeten Einheiten bietet sie Unterstützung durch Bergbauvorarbeiterstrahlen, Schildfernbooster und Vermessungsscanner. Die Porpoise profitiert zudem von starken Boni auf Bergbaudrohnen, was es ihr gestattet, in jeder Bergbauoperation ihren eigenen, gerechten Anteil an Erz einzuholen.",
- "description_en-us": "When new lower-mass wormhole connections began appearing across Anoikis in late YC116, ORE tasked the engineers at its advanced Outer Ring Development labs with creating a mining foreman vessel capable of passing through these gateways and exploiting the unspoiled riches available within. Creating such a compact ship while preserving much of the utility of the larger Orca and Rorqual designs proved a significant challenge, but the end result was a ship that had great potential for capsuleer mining operations in all areas of space.\r\n\r\nThe Porpoise is a smaller, more mobile and more affordable mining foreman platform that is perfect for supporting mining operations in dangerous space. It is capable of providing support to its allies through mining foreman bursts, remote shield boosters and survey scanners. The Porpoise also enjoys strong bonuses to mining drones, allowing it to pull in its own share of the ore in any mining operation.",
- "description_es": "When new lower-mass wormhole connections began appearing across Anoikis in late YC116, ORE tasked the engineers at its advanced Outer Ring Development labs with creating a mining foreman vessel capable of passing through these gateways and exploiting the unspoiled riches available within. Creating such a compact ship while preserving much of the utility of the larger Orca and Rorqual designs proved a significant challenge, but the end result was a ship that had great potential for capsuleer mining operations in all areas of space.\r\n\r\nThe Porpoise is a smaller, more mobile and more affordable mining foreman platform that is perfect for supporting mining operations in dangerous space. It is capable of providing support to its allies through mining foreman bursts, remote shield boosters and survey scanners. The Porpoise also enjoys strong bonuses to mining drones, allowing it to pull in its own share of the ore in any mining operation.",
+ "description_en-us": "When new lower-mass wormhole connections began appearing across Anoikis in late YC116, ORE tasked the engineers at its advanced Outer Ring Development labs with creating a mining foreman vessel capable of passing through these gateways and exploiting the unspoiled riches available within. Creating such a compact ship while preserving much of the utility of the larger Orca and Rorqual designs proved a significant challenge, but the end result was a ship that had great potential for capsuleer mining operations in all areas of space.\r\n\r\nThe Porpoise can use a medium industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Porpoise also having this capability, although limited to using medium gas and asteroid ore compressors.\r\n\r\nThe Porpoise is a smaller, more mobile and more affordable mining foreman platform that is perfect for supporting mining operations in dangerous space. It is capable of providing support to its allies through mining foreman bursts, remote shield boosters and survey scanners. The Porpoise also enjoys strong bonuses to mining drones, allowing it to pull in its own share of the ore in any mining operation.",
+ "description_es": "When new lower-mass wormhole connections began appearing across Anoikis in late YC116, ORE tasked the engineers at its advanced Outer Ring Development labs with creating a mining foreman vessel capable of passing through these gateways and exploiting the unspoiled riches available within. Creating such a compact ship while preserving much of the utility of the larger Orca and Rorqual designs proved a significant challenge, but the end result was a ship that had great potential for capsuleer mining operations in all areas of space.\r\n\r\nThe Porpoise can use a medium industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Porpoise also having this capability, although limited to using medium gas and asteroid ore compressors.\r\n\r\nThe Porpoise is a smaller, more mobile and more affordable mining foreman platform that is perfect for supporting mining operations in dangerous space. It is capable of providing support to its allies through mining foreman bursts, remote shield boosters and survey scanners. The Porpoise also enjoys strong bonuses to mining drones, allowing it to pull in its own share of the ore in any mining operation.",
"description_fr": "Lorsque des connexions de trous de ver de faible masse ont commencé à faire leur apparition à travers Anoikis fin YC 116, l'ORE confia aux ingénieurs de ses laboratoires de l'Outer Ring Development le soin de créer un vaisseau contremaître d'extraction minière capable de traverser ces portails et d'exploiter les richesses qui s'y trouvent. Créer un vaisseau aussi compact tout en conservant l'utilité de plus gros vaisseaux comme l'Orca et le Rorqual s'avéra être un défi de taille, mais ce projet aboutit finalement à un vaisseau pourvu d'un immense potentiel pour toutes les opérations d'extraction minière des capsuliers à travers la galaxie. Le Porpoise est une plateforme contremaître d'extraction minière plus petite, plus mobile et surtout moins chère, idéale pour soutenir les opérations d'extraction dans les coins les plus dangereux de la galaxie. Il est ainsi capable d'apporter son soutien à ses alliés grâce à des salves de contremaîtrise minière, des boosters de bouclier à distance et des scanners d'exploration. Le Porpoise dispose également de puissants bonus affectant les drones d'extraction et lui permettant de récolter de lui-même une partie du minerai lors des opérations d'extraction.",
- "description_it": "When new lower-mass wormhole connections began appearing across Anoikis in late YC116, ORE tasked the engineers at its advanced Outer Ring Development labs with creating a mining foreman vessel capable of passing through these gateways and exploiting the unspoiled riches available within. Creating such a compact ship while preserving much of the utility of the larger Orca and Rorqual designs proved a significant challenge, but the end result was a ship that had great potential for capsuleer mining operations in all areas of space.\r\n\r\nThe Porpoise is a smaller, more mobile and more affordable mining foreman platform that is perfect for supporting mining operations in dangerous space. It is capable of providing support to its allies through mining foreman bursts, remote shield boosters and survey scanners. The Porpoise also enjoys strong bonuses to mining drones, allowing it to pull in its own share of the ore in any mining operation.",
+ "description_it": "When new lower-mass wormhole connections began appearing across Anoikis in late YC116, ORE tasked the engineers at its advanced Outer Ring Development labs with creating a mining foreman vessel capable of passing through these gateways and exploiting the unspoiled riches available within. Creating such a compact ship while preserving much of the utility of the larger Orca and Rorqual designs proved a significant challenge, but the end result was a ship that had great potential for capsuleer mining operations in all areas of space.\r\n\r\nThe Porpoise can use a medium industrial core to substantially increase its industrial capabilities, while empowering its defenses during deployment in a static configuration. A key element of the industrial capacity unlocked by activating an industrial core is the ability to use compressor modules, with the Porpoise also having this capability, although limited to using medium gas and asteroid ore compressors.\r\n\r\nThe Porpoise is a smaller, more mobile and more affordable mining foreman platform that is perfect for supporting mining operations in dangerous space. It is capable of providing support to its allies through mining foreman bursts, remote shield boosters and survey scanners. The Porpoise also enjoys strong bonuses to mining drones, allowing it to pull in its own share of the ore in any mining operation.",
"description_ja": "YC116後期、アノイキスに新たな低質量ワームホール接続が出現し始めた時、OREはアウターリング開発研究所のエンジニアに、これらのゲートウェイを通過し、その中にある手つかずの富を利用できる採掘用船の製作を依頼した。このようなコンパクトな船を作りながら、大型のオルカやローカルの設計の有用性の多くを維持することは重要な挑戦であったが、最終的には宇宙のあらゆる分野でのカプセラによる採掘作業に大きな可能性を持つ船となった。\r\n\nポルポイズは、危険な空間での採掘支援をするのに最適な、より小型で機動性に優れ、より手頃な価格の採掘監督プラットフォームである。採掘監督バースト、リモートシールドブースター、サーベイスキャナーによって味方にサポートを提供することができる。ポルポイズは採掘専門ドローンにも強力なボーナスを与えてくれるため、どんな採掘作業でも自分の鉱石の取り分を引き寄せることができる。",
"description_ko": "YC 116년, 낮은 질량의 웜홀 통로가 아노이키스 전역에서 발견되자 ORE는 해당 웜홀을 통과할 수 있는 특수 채광선의 개발에 착수하였습니다. ORE는 콤팩트한 설계의 함선을 개발하기 위해 오르카와 로퀄의 디자인을 참고하였으며 다수의 시행착오를 거친 후 마침내 광범위한 채굴 임무를 수행할 수 있는 채광선을 제작하는데 성공했습니다.
포어포이스는 비교적 작은 규모와 낮은 비용을 자랑하는 포어맨 플랫폼으로 위험 지역에서의 채굴 임무를 지원하는 역할을 합니다. 아군 함선을 대상으로 채광 버스트 및 실드를 지원할 수 있으며 조사 스캐너의 사용 또한 가능합니다. 추가로 채굴 드론에 대한 보너스가 존재하여 직접 채굴을 진행할 수도 있습니다.",
"description_ru": "К концу 116 года от ю. с. по всему Аноикису начали появляться червоточины с малой массой, и ОРЭ поручила своим инженерам из лаборатории передовых Окраинных рудных исследований создать новое добывающее судно, способное проходить сквозь эти порталы и разрабатывать нетронутые богатства, к которым они ведут. Создать компактный корабль, сохранив при этом основные возможности более крупных «Орки» и «Рорквала», оказалось непросто, однако получившийся корабль отвечает всем требованиям капсулёров, занятых добычей ресурсов во разных районах космоса. Компактная, мобильная и весьма доступная добывающая платформа «Белуха» идеальна для использования в опасных условиях. Используя импульсы командования, дистанционное усиление щитов и поисковые сканеры, этот корабль обеспечивает достойную поддержку всем союзникам. Кроме того, «Белуха» обладает рядом преимуществ для буровых дронов, что позволяет ей вносить вклад в процесс добычи ценных ископаемых.",
@@ -177503,14 +177508,14 @@
"42522": {
"basePrice": 240947786.0,
"capacity": 0.0,
- "description_de": "Der pulsaktivierte Nexus-Unverwundbarkeitskern basiert auf ursprünglich gemeinsam mit Zitadellen veröffentlichter Technologie und ist das Ergebnis von Upwells unermüdlichen Forschungen zu fortschrittlichen Schildtechnologien. Dieses mächtige Modul ermöglicht es einer Rorqual, sich selbst und weitere Industrieschiffe derselben Flotte für eine kurze Zeit unverwundbar zu machen.\n\n\n\nAufgrund der großen Belastung durch die Aufrechterhaltung des Schildimpulses muss die Rorqual einen Erz- oder Eisasteroiden aufgeschaltet haben, wenn dieses Modul aktiviert wird.\n\nDieses Modul brennt nach einer einzigen Aktivierung vollständig aus und muss für eine zukünftige Verwendung repariert werden.\n\n\n\nDer Effekt dieses Moduls betrifft Bergbau- und Transportschiffe der Subcapital-Größe in derselben Flotte wie die aktivierende Rorqual. Er betrifft keine weiteren Rorquals.\n\nBetroffene Schiffe erhalten unglaubliche Schildresistenzen, verlieren jedoch die Fähigkeit, Schaden zuzufügen, sich zu tarnen, zu warpen, anzudocken, sich zu vertäuen oder Sprünge auszuführen. Andere Effekte beinhalten eine erhöhte Masse, verringerte Geschwindigkeit und verringerte Scanauflösung.",
+ "description_de": "Der pulsaktivierte Nexus-Unverwundbarkeitskern basiert auf ursprünglich gemeinsam mit Zitadellen veröffentlichter Technologie und ist das Ergebnis von Upwells unermüdlichen Forschungen zu fortschrittlichen Schildtechnologien. Dieses mächtige Modul ermöglicht es einer Rorqual, sich selbst und weitere Industrieschiffe derselben Flotte für eine kurze Zeit unverwundbar zu machen.¶\r\n¶\r\nAufgrund der großen Belastung durch die Aufrechterhaltung des Schildimpulses muss die Rorqual einen Erz- oder Eisasteroiden aufgeschaltet haben, wenn dieses Modul aktiviert wird.¶\r\n¶\r\nDieses Modul brennt nach einer einzigen Aktivierung vollständig aus und muss für eine zukünftige Verwendung repariert werden.¶\r\n \r\nDer Effekt dieses Moduls betrifft Bergbau- und Transportschiffe der Subcapital-Größe in derselben Flotte wie die aktivierende Rorqual. Er betrifft keine weiteren Rorquals.¶\r\n¶\r\nBetroffene Schiffe erhalten unglaubliche Schildresistenzen, verlieren jedoch die Fähigkeit, Schaden zuzufügen, sich zu tarnen, zu warpen, anzudocken, sich zu vertäuen oder Sprünge auszuführen. Andere Effekte beinhalten eine erhöhte Masse, verringerte Geschwindigkeit und verringerte Scanauflösung.",
"description_en-us": "Adapted from technology originally released with Citadels, the Pulse Activated Nexus Invulnerability Core is the result of Upwell's tireless research into advanced shielding. This powerful module allows a Rorqual to make itself and industrial fleetmates nearly invulnerable for a short time.\r\n\r\nDue to the immense stresses involved in the sustained shield pulse, the Rorqual must have an active target lock on an ore or ice asteroid when activating this module.\r\nThis module burns out completely after a single activation and will need to be repaired to be used in the future.\r\n\r\nThe effect from this module applies to subcapital mining and hauling ships in the same fleet as the activating Rorqual. Does not apply to other Rorquals.\r\nAffected ships gain incredible shield resistances, but lose the ability to deal damage, cloak, warp, dock, tether, or jump. Other effects include increased mass, decreased velocity and decreased scan resolution.",
"description_es": "Adapted from technology originally released with Citadels, the Pulse Activated Nexus Invulnerability Core is the result of Upwell's tireless research into advanced shielding. This powerful module allows a Rorqual to make itself and industrial fleetmates nearly invulnerable for a short time.\r\n\r\nDue to the immense stresses involved in the sustained shield pulse, the Rorqual must have an active target lock on an ore or ice asteroid when activating this module.\r\nThis module burns out completely after a single activation and will need to be repaired to be used in the future.\r\n\r\nThe effect from this module applies to subcapital mining and hauling ships in the same fleet as the activating Rorqual. Does not apply to other Rorquals.\r\nAffected ships gain incredible shield resistances, but lose the ability to deal damage, cloak, warp, dock, tether, or jump. Other effects include increased mass, decreased velocity and decreased scan resolution.",
- "description_fr": "Adapté de la technologie originellement développée pour les citadelles, le nexus d'invulnérabilité à impulsions est le fruit des recherches acharnées menées par Upwell sur les systèmes de boucliers avancés. Ce puissant module permet à un Rorqual d'enclencher une courte phase de quasi invulnérabilité au profit de sa flotte industrielle et de sa propre coque.\n\n\n\nAfin de subsister à l'intensité des impulsions continues de boucliers, le Rorqual doit impérativement verrouiller un astéroïde de minerai ou de glace avant d'activer ce module.\n\nLe nexus d'invulnérabilité à impulsions se consume après chaque activation et nécessite une réparation complète pour être à nouveau opérationnel.\n\n\n\nLes effets du nexus s'appliquent aux vaisseaux d'extraction sous-capitaux et aux vaisseaux de transport membres de la flotte du Rorqual équipé du module actif. Effets inopérants sur les autres Rorqual.\n\nLes vaisseaux affectés acquièrent des résistances de boucliers inouïes, mais perdent toute capacité à infliger des dégâts, à warper, à s'amarrer ou à sauter. Le nexus augmente également la masse des vaisseaux, et réduit la vitesse ainsi que la résolution de scan.",
+ "description_fr": "Adapté de la technologie originellement développée pour les citadelles, le nexus d'invulnérabilité à impulsions est le fruit des recherches acharnées menées par Upwell sur les systèmes de boucliers avancés. Ce puissant module permet à un Rorqual d'enclencher une courte phase de quasi invulnérabilité au profit de sa flotte industrielle et de sa propre coque.¶\r\n¶\r\nAfin de subsister à l'intensité des impulsions continues de boucliers, le Rorqual doit impérativement verrouiller un astéroïde de minerai ou de glace avant d'activer ce module.¶\r\n¶\r\nLe nexus d'invulnérabilité à impulsions se consume après chaque activation et nécessite une réparation complète pour être à nouveau opérationnel.¶\r\n¶\r\nLes effets du nexus s'appliquent aux vaisseaux d'extraction sous-capitaux et aux vaisseaux de transport membres de la flotte du Rorqual équipé du module actif. Effets inopérants sur les autres Rorqual.¶\r\n¶\r\nLes vaisseaux affectés acquièrent des résistances de boucliers inouïes, mais perdent toute capacité à infliger des dégâts, à warper, à s'amarrer ou à sauter. Le nexus augmente également la masse des vaisseaux, et réduit la vitesse ainsi que la résolution de scan.",
"description_it": "Adapted from technology originally released with Citadels, the Pulse Activated Nexus Invulnerability Core is the result of Upwell's tireless research into advanced shielding. This powerful module allows a Rorqual to make itself and industrial fleetmates nearly invulnerable for a short time.\r\n\r\nDue to the immense stresses involved in the sustained shield pulse, the Rorqual must have an active target lock on an ore or ice asteroid when activating this module.\r\nThis module burns out completely after a single activation and will need to be repaired to be used in the future.\r\n\r\nThe effect from this module applies to subcapital mining and hauling ships in the same fleet as the activating Rorqual. Does not apply to other Rorquals.\r\nAffected ships gain incredible shield resistances, but lose the ability to deal damage, cloak, warp, dock, tether, or jump. Other effects include increased mass, decreased velocity and decreased scan resolution.",
- "description_ja": "アップウェルが高度シールド技術を飽くことなく求め続け、もともとシタデル用に開発された技術を応用した結果、パルス発動型ネクサス非脆弱化コア(P.A.N.I.C.)が誕生した。この強力なモジュールを使えば、装備しているロークアルだけでなくフリートの僚艦まで短時間ほぼ無敵状態にすることができる。\n\n\n\nただし、継続的なシールドパルスによって強い負担がかかるため、ロークアルはモジュール使用時にアステロイドかアイスをロックしておかなければならない。\n\n1回の使用で完全に燃え尽きてしまうので、再び使用する前に修理する必要もある。\n\n\n\nP.A.N.I.C.モジュールの効果が適用されるのは、モジュールを起動したロークアルと同じフリートに所属している主力艦以下の採掘艦と輸送艦。他のロークアルには適用されない。\n\nこの効果が適用された艦船は驚異的なシールドレジスタンスを得られるが、攻撃、遮蔽、ワープ、ドッキング、テザリング、ジャンプの機能が一時的に使用できなくなる。その他にも質量の増大、速度の減少、スキャン分解能の低下などの影響を受けてしまう。",
+ "description_ja": "アップウェルが高度シールド技術を飽くことなく求め続け、もともとシタデル用に開発された技術を応用した結果、パルス発動型ネクサス非脆弱化コア(P.A.N.I.C.)が誕生した。この強力なモジュールを使えば、装備しているロークアルだけでなくフリートの僚艦まで短時間ほぼ無敵状態にすることができる。¶\r\n¶\r\nただし、継続的なシールドパルスによって強い負担がかかるため、ロークアルはモジュール使用時にアステロイドかアイスをロックしておかなければならない。¶\r\n¶\r\n1回の使用で完全に燃え尽きてしまうので、再び使用する前に修理する必要もある。¶\r\n¶\r\nP.A.N.I.C.モジュールの効果が適用されるのは、モジュールを起動したロークアルと同じフリートに所属している主力艦以下の採掘艦と輸送艦。他のロークアルには適用されない。¶\r\n¶\r\nこの効果が適用された艦船は驚異的なシールドレジスタンスを得られるが、攻撃、遮蔽、ワープ、ドッキング、テザリング、ジャンプの機能が一時的に使用できなくなる。その他にも質量の増大、速度の減少、スキャン分解能の低下などの影響を受けてしまう。",
"description_ko": "패닉 넥서스 코어는 업웰이 끊임없이 실드 기술 분야에 연구하고 투자한 결과로 시타델 출시와 함께 공개된 기술입니다. 로퀄에 탑재되어 자신과 주변 아군 인더스트리얼들을 짧은 시간동안 무적 상태로 전환할 수 있습니다.
로퀄은 실드 펄스가 일으키는 엄청난 힘으로 인해 모듈이 활성화된 동안 반드시 아이스 또는 광물 소행성을 타겟팅한 상태여야 합니다.
1회 사용 후 모듈이 완전히 타버리기 때문에 추후 사용을 위해서는 반드시 수리해야 합니다.
모듈은 로퀄 자신, 소속 함대 내 캐피탈급 미만 채광선 및 인더스트리얼에 적용됩니다. 다른 로퀄에게는 적용되지 않습니다.
효과를 받은 함선들은 엄청난 실드 저항력을 얻게 되지만, 공격, 클로킹, 워프, 도킹, 테더링, 점프를 할 수 없습니다. 또한 질량 증가, 속도 감소, 스캔 정밀도 감소 효과도 받게 됩니다.",
- "description_ru": "Модуль пульс-активируемой неуязвимости, индуцирующей компаньонов по аккумуляции (ПАНИКА), создан на основе технологии, впервые представленной в цитаделях и является результатом неустанных разработок консорциума «Апвелл» в области совершенствования щитов. Этот мощный модуль позволяет «Рорквалу» обеспечивать практически полную временную неуязвимость для себя и своих союзников, относящихся к добывающему флоту.\n\n\n\nПо причине огромного напряжения, требуемого для поддержания постоянного импульса щита, для использования модуля «Рорквалу» необходимо наличие астероида, состоящего из руды или льда, в списке захваченных целей.\n\nМодуль полностью сгорает после первого цикла, и для дальнейшего использования должен быть отремонтирован.\n\n\n\nЭффекту модуля подвержены корабли добывающего и транспортного назначения, не относящиеся к КБТ и находящиеся в том же флоте, что и «Рорквал», применяющий модуль. Эффект модуля не затрагивает прочие «Рорквалы».\n\nПод воздействием ПАНИКИ корабли получают чрезвычайно высокую сопротивляемость щитов, но лишаются возможности наносить урон, маскироваться, швартоваться, уходить в варп-режим, в док или в гиперпереход. Кроме того, повышается их масса, уменьшается скорость полёта и снижается скорость захвата целей.",
+ "description_ru": "Модуль пульс-активируемой неуязвимости, индуцирующей компаньонов по аккумуляции (ПАНИКА), создан на основе технологии, впервые представленной в цитаделях и является результатом неустанных разработок консорциума «Апвелл» в области совершенствования щитов. Этот мощный модуль позволяет «Рорквалу» обеспечивать практически полную временную неуязвимость для себя и своих союзников, относящихся к добывающему флоту.¶\r\n¶\r\nПо причине огромного напряжения, требуемого для поддержания постоянного импульса щита, для использования модуля «Рорквалу» необходимо наличие астероида, состоящего из руды или льда, в списке захваченных целей.¶\r\n¶\r\nМодуль полностью сгорает после первого цикла, и для дальнейшего использования должен быть отремонтирован.¶\r\n¶\r\nЭффекту модуля подвержены корабли добывающего и транспортного назначения, не относящиеся к КБТ и находящиеся в том же флоте, что и «Рорквал», применяющий модуль. Эффект модуля не затрагивает прочие «Рорквалы».¶\r\n¶\r\nПод воздействием ПАНИКИ корабли получают чрезвычайно высокую сопротивляемость щитов, но лишаются возможности наносить урон, маскироваться, швартоваться, уходить в варп-режим, в док или в гиперпереход. Кроме того, повышается их масса, уменьшается скорость полёта и снижается скорость захвата целей.",
"description_zh": "脉冲激活式关联全能核心源自与堡垒一同面世的科技,是昇威集团永不停歇地钻研高级护盾技术的成果。这个强大的装备赋予了长须鲸级在短时间内使其自身和附近的工业舰队伙伴近乎无敌的能力。\n\n\n\n由于持续的护盾脉冲产生的巨大压力,长须鲸级必须锁定矿石或冰矿小行星才能激活此装备。\n\n这个装备一经激活就会彻底烧毁,需要经过维修才能再次使用。\n\n\n\n这个装备产生的效果对与激活它的长须鲸级在同一舰队的非旗舰级采矿船和运输船都生效。对其他长须鲸级则没有效果。\n\n受其效果影响的舰船获得了极高的护盾抗性,但无法造成伤害、隐形、跃迁、停靠、驻留或跳跃。其他效果包括质量增加、速度和扫描分辨率降低。",
"descriptionID": 522448,
"groupID": 588,
@@ -186273,10 +186278,10 @@
"basePrice": 208000000.0,
"capacity": 0.0,
"description_de": "Ein elektronisches Interface, das entwickelt wurde, um die Stationierung der Rorqual in ihrem Industrie-Modus zu erleichtern. Während sie stationiert ist, wird die Energie aus den Triebwerken der Rorqual in mächtige Schilde, verbesserte Bergbauvorarbeiterstrahlen und eine deutlich verbesserte Koordination von Bergbaudrohnen umgeleitet. Stationierte Rorquals erhalten zudem Zugriff auf eine einzigartige Maschinerie, mit der Asteroiden-Erz und Eis verdichtet werden kann. Die Vorteile der Nutzung dieses Moduls zusammen mit ähnlichen Modulen, die sich auf dieselben Attribute auswirken, werden mit sinkenden Erträgen einhergehen. Hinweis: Kann nur in das Capital-Industrieschiff Rorqual eingebaut werden.",
- "description_en-us": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination. Deployed Rorquals also gain access to special assembly lines which can compress asteroid ore and ice.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
- "description_es": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination. Deployed Rorquals also gain access to special assembly lines which can compress asteroid ore and ice.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
+ "description_en-us": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Rorquals also gain the ability to activate capital compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
+ "description_es": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Rorquals also gain the ability to activate capital compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
"description_fr": "Interface électronique conçue pour faciliter le déploiement du Rorqual en configuration industrielle. En configuration industrielle, l'énergie produite par les moteurs du Rorqual alimente efficacement les gigantesques boucliers défensifs, les salves de contremaîtrise minière et la plateforme de coordination des drones d'extraction. Les Rorqual déployés ont également accès à des chaînes d'assemblage spécialisées, dédiées à la compression des minerais d'astéroïde et de la glace. Les bénéfices de l'utilisation de ce module en complément d'autres modules influant sur les mêmes attributs seront soumis à un rendement décroissant. Remarque : réservé aux vaisseaux capitaux industrielx de classe Rorqual.",
- "description_it": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination. Deployed Rorquals also gain access to special assembly lines which can compress asteroid ore and ice.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
+ "description_it": "An electronic interface designed to facilitate the deployment of the Rorqual into its industrial configuration. Whilst in the deployed configuration, energy from the Rorqual's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Rorquals also gain the ability to activate capital compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Rorqual industrial capital ship.",
"description_ja": "ロークアルを輸送艦として使用するための電子インターフェイス。展開形態になると、ロークアルから出力したエンジンのエネルギーは、驚異的なシールド防御、採掘支援バーストの改善、採掘専門ドローンの連携の大幅強化に注ぎ込まれる。展開したロークアルは、アステロイドの鉱石やアイスを圧縮することができる特別な作業ラインにもアクセスできるようになる。\n\n\n\nこのモジュールは同属性の効果がある別のモジュールと併用すると、リターン減少の対象となる。\n\n\n\n注:ロークアル採掘支援主力艦にのみ搭載可能。",
"description_ko": "로퀄의 산업 모드 설정을 위한 전자 인터페이스입니다. 모드 활성화 시 엔진에 가용 중인 전력이 실드로 전환되며 채광 버스트 및 채굴 드론의 기능이 향상됩니다. 추가로 광물 및 아이스 압착을 위한 특수 생산라인을 가동할 수 있습니다.
함선에 동일한 속성의 모듈을 함께 장착할 경우 페널티가 부여됩니다.
참고: 로퀄에만 장착할 수 있습니다.",
"description_ru": "Электронный интерфейс, предназначенный для перенаправления мощностей в промышленном корабле типа «Рорквал» В развёрнутом состоянии энергия двигательной установки направляется на мощнейшие щиты корабля, на усиление импульсных систем координации добычи сырья и на значительное улучшение координации буровых дронов. Кроме того, в этом состоянии возможна работа особых сборочных линий, которые могут сжимать добываемую в астероидах руду и лёд. Установка двух и более модулей, влияющих на одну и ту же характеристику, приведёт к снижению эффективности их действия. Примечание: может устанавливаться только на промышленных кораблях большого тоннажа типа «Рорквал».",
@@ -230995,7 +231000,7 @@
"44992": {
"basePrice": 0.0,
"capacity": 0.0,
- "description_de": "PLEX ist ein Gegenstand, der auf dem regionalen Markt zwischen Spielern getauscht werden kann. PLEX können auch im New Eden Store eingesetzt werden, um Ihren Account auf den Klonstatus Omega aufzuwerten, virtuelle Güter zu kaufen oder andere Account-Dienste zu aktivieren.\n\n\n\nPLEX erwerben\n\nPLEX können auf dem regionalen Markt für ISK, über den PLEX-Tresor oder sicher auf https://secure.eveonline.com/PLEX/ mittels verschiedener Methoden erworben werden.\n\n\n\nTIPP: Der Erwerb von PLEX, um sie an andere Spieler für ISK zu verkaufen, ist eine großartige Möglichkeit, um die eigene Kapselpilotenkarriere in Gang zu befördern!\n\n\n\nVerwendung von PLEX\n\nPLEX können ebenfalls eingesetzt werden, um Ihren Account auf den Klonstatus Omega aufzuwerten, virtuelle Güter zu kaufen oder andere Account-Dienste im New Eden Store zu aktivieren. Um PLEX im New Eden Store benutzen zu können, müssen PLEX in Ihrem PLEX-Tresor hinterlegt werden.\n\n\n\nPLEX-Tresor\n\nDer PLEX-Tresor ist eine sicherer Bereich im Inventar, er mit allen Charakteren desselben Accounts geteilt wird. Dort können PLEX für die Verwendung im New Eden Store hinterlegt werden. Der PLEX-Tresor befindet sich in Ihrem Inventar in der Auswahlloste auf der linken Seite des Fensters.",
+ "description_de": "PLEX ist ein Gegenstand, der auf dem regionalen Markt zwischen Spielern getauscht werden kann. PLEX können auch im New Eden Store eingesetzt werden, um Ihren Account auf den Klonstatus Omega aufzuwerten, virtuelle Güter zu kaufen oder andere Account-Dienste zu aktivieren.¶\r\n¶\r\nPLEX erwerben¶\r\n¶\r\nPLEX können auf dem regionalen Markt für ISK, über den PLEX-Tresor oder sicher auf https://secure.eveonline.com/PLEX/ mittels verschiedener Methoden erworben werden.¶\r\n¶\r\nTIPP: Der Erwerb von PLEX, um sie an andere Spieler für ISK zu verkaufen, ist eine großartige Möglichkeit, um die eigene Kapselpilotenkarriere in Gang zu befördern!¶\r\n¶\r\nVerwendung von PLEX¶\r\n¶\r\nPLEX können ebenfalls eingesetzt werden, um Ihren Account auf den Klonstatus Omega aufzuwerten, virtuelle Güter zu kaufen oder andere Account-Dienste im New Eden Store zu aktivieren. Um PLEX im New Eden Store benutzen zu können, müssen PLEX in Ihrem PLEX-Tresor hinterlegt werden.¶\r\n¶\r\nPLEX-Tresor¶\r\n¶\r\nDer PLEX-Tresor ist eine sicherer Bereich im Inventar, er mit allen Charakteren desselben Accounts geteilt wird. Dort können PLEX für die Verwendung im New Eden Store hinterlegt werden. Der PLEX-Tresor befindet sich in Ihrem Inventar in der Auswahlliste auf der linken Seite des Fensters.",
"description_en-us": "PLEX is an item that can be traded between players on the regional market. PLEX can also be used in the New Eden Store to upgrade your account to Omega Clone State, purchase virtual goods, and activate other account services.\r\n\r\nGetting PLEX\r\nPLEX can be purchased on the regional market for ISK, from the PLEX Vault, or securely on https://secure.eveonline.com/PLEX/ using a variety of methods.\r\n\r\nTIP: Purchasing PLEX to sell for ISK to other players is a great way to kickstart your capsuleer career!\r\n\r\nUsing PLEX\r\nPLEX can be used to upgrade your account to Omega Clone State, purchase virtual goods, and activate account services via the New Eden Store. To use PLEX in the New Eden Store, PLEX must be placed in your PLEX Vault.\r\n\r\nPLEX Vault\r\nThe PLEX Vault is a secure location in your inventory, shared across all characters on your account, where PLEX can be placed for use in the New Eden Store. You can find the PLEX Vault in your inventory in the list of locations to the left of the window.",
"description_es": "PLEX is an item that can be traded between players on the regional market. PLEX can also be used in the New Eden Store to upgrade your account to Omega Clone State, purchase virtual goods, and activate other account services.\r\n\r\nGetting PLEX\r\nPLEX can be purchased on the regional market for ISK, from the PLEX Vault, or securely on https://secure.eveonline.com/PLEX/ using a variety of methods.\r\n\r\nTIP: Purchasing PLEX to sell for ISK to other players is a great way to kickstart your capsuleer career!\r\n\r\nUsing PLEX\r\nPLEX can be used to upgrade your account to Omega Clone State, purchase virtual goods, and activate account services via the New Eden Store. To use PLEX in the New Eden Store, PLEX must be placed in your PLEX Vault.\r\n\r\nPLEX Vault\r\nThe PLEX Vault is a secure location in your inventory, shared across all characters on your account, where PLEX can be placed for use in the New Eden Store. You can find the PLEX Vault in your inventory in the list of locations to the left of the window.",
"description_fr": "Les PLEX sont des biens physiques, échangeables entre joueurs sur les marchés régionaux. Elles peuvent également être activées dans le magasin New Eden pour mettre à niveau votre compte vers un statut de clone Omega, acheter des marchandises virtuelles ou activer divers services de compte. Obtenir des PLEX Vous pouvez acheter des PLEX sur les marchés régionaux d'EVE contre des ISK, dans le coffre-fort de PLEX ou sur le site sécurisé https://secure.eveonline.com/PLEX/ avec les moyens de paiement conventionnels. Astuce : acheter des PLEX pour les vendre contre des ISK à d'autres joueurs constitue un fonds de ressources substantiel pour lancer votre carrière de capsulier ! Utiliser les PLEX Les PLEX permettent de mettre à niveau votre compte vers un statut de clone Omega, d'acheter des marchandises virtuelles ou d'activer divers services de compte. Vous devez préalablement entreposer vos PLEX dans votre coffre-fort de PLEX avant de les utiliser dans le magasin New Eden. Coffre-fort de PLEX Le coffre-fort de PLEX est une chambre forte sécurisée au sein de votre inventaire, commune à tous les personnages de votre compte, où vous pouvez stocker les PLEX à destination du magasin New Eden. Le coffre-fort de PLEX est situé dans votre inventaire, dans la liste des lieux à gauche sur votre écran.",
@@ -246735,6 +246740,7 @@
"marketGroupID": 2505,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -246769,6 +246775,7 @@
"marketGroupID": 2505,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -246803,6 +246810,7 @@
"marketGroupID": 2505,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -246837,6 +246845,7 @@
"marketGroupID": 2503,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -246871,6 +246880,7 @@
"marketGroupID": 2503,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -246905,6 +246915,7 @@
"marketGroupID": 2503,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -246939,6 +246950,7 @@
"marketGroupID": 2504,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -246973,6 +246985,7 @@
"marketGroupID": 2504,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -247007,6 +247020,7 @@
"marketGroupID": 2504,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
diff --git a/staticdata/fsd_binary/types.3.json b/staticdata/fsd_binary/types.3.json
index de044363b..8449e075e 100644
--- a/staticdata/fsd_binary/types.3.json
+++ b/staticdata/fsd_binary/types.3.json
@@ -15824,10 +15824,10 @@
"basePrice": 564000.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Arkonor-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Arkonor. Arkonor ist eines der seltensten und wertvollsten Erze im derzeit bekannten Universum. Ein großer Klumpen davon kann jemanden im Handumdrehen vom Tellerwäscher zum Millionär machen. Es verfügt über eine große Menge an Megacyte und enthält auch ein wenig Mexallon und Pyerite. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai d'arkonor a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de l'arkonor classique lors de son retraitement. L'arkonor est l'un des minerais bruts les plus rares et les plus recherchés de l'univers. Une simple pépite est synonyme de fortune. L'arkonor a la plus forte concentration en mégacyte de tous les minerais bruts. Il contient également du mexallon et de la pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるアーコナーの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のアーコナーより15%も多いことが確認された。\r\n\nアーコナーは非常に希少で、既知宇宙の中で最も需要の高い鉱石の一つである。ひとかたまりのアーコナーがあれば、すぐに大富豪の仲間入りができると言われており、それだけに探している者も多い。メガサイトの含有率が高く、メクサロン、パイライトも成分に含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 아르카노르입니다. 광석을 조사한 결과 일반적인 아르카노르에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
우주에서 가장 희귀한 광석 중 하나로 시장에서 높은 시세를 형성하고 있습니다. 아르카노르 광맥을 발견할 경우 순식간에 돈방석 위에 앉을 수 있는 것으로 유명합니다. 아르카노르는 다량의 메가사이트와 평균적인 수준의 멕살론과 파이어라이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность арконора была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного арконора. Арконор — одна из наиболее редких и востребованных руд в известной вселенной. Чтобы мгновенно разбогатеть, хватит одного крупного самородка. В нём содержится немалое количество мегацита, а также мексаллон и пирит. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -15844,10 +15844,10 @@
"radius": 1.0,
"typeID": 46691,
"typeName_de": "Compressed Flawless Arkonor",
- "typeName_en-us": "Obsolete Compressed Flawless Arkonor",
- "typeName_es": "Obsolete Compressed Flawless Arkonor",
+ "typeName_en-us": "Batch Compressed Flawless Arkonor",
+ "typeName_es": "Batch Compressed Flawless Arkonor",
"typeName_fr": "Arkonor pur compressé",
- "typeName_it": "Obsolete Compressed Flawless Arkonor",
+ "typeName_it": "Batch Compressed Flawless Arkonor",
"typeName_ja": "圧縮無垢アーコナー",
"typeName_ko": "압축된 핏빛 아르카노르",
"typeName_ru": "Compressed Flawless Arkonor",
@@ -15859,10 +15859,10 @@
"basePrice": 520000.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Bistot-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Bistot. Bistot ist ein sehr wertvolles Erz, da es große Mengen von Zydrine und Pyerite enthält. Es enthält außerdem eine beträchtliche Menge Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de bistot a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui du bistot classique lors de son retraitement. Le bistot est un minerai très précieux contenant de grandes proportions de zydrine et de pyérite. Il renferme également une quantité honorable de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるビストットの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のビストットより15%も多いことが確認された。\r\n\nザイドリンとパイライトを大量に含むビストットは、非常に価値が高い鉱石である。また、メクサロンも少なからず含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 비스토트입니다. 광석을 조사한 결과 일반적인 비스토트에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
비스토트는 상당한 가치를 지닌 광석으로 다량의 자이드라인과 파이어라이트를 함유하고 있습니다. 그 외에도 상당량의 멕살론 또한 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность бистота была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного бистота. Ценность бистота весьма велика благодаря высокому содержанию зидрина и пирита. Кроме того, из него извлекают немалое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -15879,10 +15879,10 @@
"radius": 1.0,
"typeID": 46692,
"typeName_de": "Compressed Cubic Bistot",
- "typeName_en-us": "Obsolete Compressed Cubic Bistot",
- "typeName_es": "Obsolete Compressed Cubic Bistot",
+ "typeName_en-us": "Batch Compressed Cubic Bistot",
+ "typeName_es": "Batch Compressed Cubic Bistot",
"typeName_fr": "Bistot cubique compressé",
- "typeName_it": "Obsolete Compressed Cubic Bistot",
+ "typeName_it": "Batch Compressed Cubic Bistot",
"typeName_ja": "圧縮キュービックビストット",
"typeName_ko": "압축된 육각 비스토트",
"typeName_ru": "Compressed Cubic Bistot",
@@ -15894,10 +15894,10 @@
"basePrice": 384500.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Crokite-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Crokite. Crokite ist ein sehr schweres Erz. Da es unter allen Erzarten des Universums die höchsten Anteile an Nocxium und Mexallon enthält, besteht ständig eine hohe Nachfrage. Wertvolle Ablagerungen von Pyerite können ebenfalls in diesem seltenen Erz gefunden werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de crokite a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de la crokite classique lors de son retraitement. La crokite est un minerai brut très lourd et très prisé, car elle contient plus de nocxium et de mexallon qu'aucun autre minerai dans tout l'univers connu. Ce minerai rare contient également de précieux dépôts de pyérite. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるクロカイトの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のクロカイトより15%も多いことが確認された。\r\n\nノキシウムとメクサロンの含有率が既知宇宙一であるクロカイトは、常に需要の絶えない、非常に重い金属である。さらにパイライトが埋蔵していることもあるため、希少度が高い。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 크로카이트입니다. 광석을 조사한 결과 일반적인 크로카이트에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
전 우주에서 녹시움과 멕살론 함량 비율이 가장 높은 광석으로 엄청난 수요를 자랑합니다. 녹시움 외에도 파이어라이트를 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность крокита была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного крокита. Крокит — очень тяжёлая руда. Спрос на него невероятно высок, поскольку он содержит столько ноксия и мексаллона, сколько не содержит ни одна другая руда в известной вселенной. Также из этой редкой руды можно извлечь достаточное количество пирита. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -15914,10 +15914,10 @@
"radius": 1.0,
"typeID": 46693,
"typeName_de": "Compressed Pellucid Crokite",
- "typeName_en-us": "Obsolete Compressed Pellucid Crokite",
- "typeName_es": "Obsolete Compressed Pellucid Crokite",
+ "typeName_en-us": "Batch Compressed Pellucid Crokite",
+ "typeName_es": "Batch Compressed Pellucid Crokite",
"typeName_fr": "Crokite translucide compressée",
- "typeName_it": "Obsolete Compressed Pellucid Crokite",
+ "typeName_it": "Batch Compressed Pellucid Crokite",
"typeName_ja": "圧縮ペルシッドクロカイト",
"typeName_ko": "압축된 칼날 크로카이트",
"typeName_ru": "Compressed Pellucid Crokite",
@@ -15929,10 +15929,10 @@
"basePrice": 147000.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des dunklen Ochre-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem dunklen Ochre. Das jahrelang als wertlos geltende dunkle Ochre wurde von den meisten Bergleuten ignoriert, bis es mit verbesserten Aufbereitungstechniken gelang, das in großen Mengen darin enthaltene Isogen und Mexallon zu extrahieren. Dunkles Ochre enthält auch verwertbare Mengen von Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai d'ochre foncé a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de l'ochre foncé classique lors de son retraitement. L'ochre foncé a longtemps été ignoré par les mineurs qui le considéraient comme un minerai sans intérêt, jusqu'à ce que l'amélioration des techniques de retraitement permette d'extraire l'énorme volume d'isogène et de mexallon qu'il contient. L'ochre foncé renferme également une quantité appréciable de nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるダークオークルの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のダークオークルより15%も多いことが確認された。\r\n\nダークオークルは長年無価値な鉱石と見なされ、採掘師たちにも無視されていたが、再処理技術の進歩により大量のアイソゲンとメクサロンを抽出できるようになったために状況が変わった。ダークオークルには少なくない量のノキシウムも含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 다크 오커입니다. 광석을 조사한 결과 일반적인 다크 오커에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
광부들은 원래 다크 오커를 쓸모없는 광물로 여겨왔으나 정제 기술의 발전 덕분에 다량의 이소젠과 멕살론을 추출할 수 있게 되었습니다. 다크 오커에는 상당량의 녹시움 또한 함유되어 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность тёмной охры была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычной тёмной охры. Долгое время тёмная охра не интересовала буровиков: считалось, что она не обладает никакой ценностью. Но технологии переработки руды совершенствовались, и со временем из тёмной охры научились извлекать изоген и мексаллон, причём в огромных количествах. Тёмная охра также содержит ноксий в умеренных концентрациях. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -15949,10 +15949,10 @@
"radius": 1.0,
"typeID": 46694,
"typeName_de": "Compressed Jet Ochre",
- "typeName_en-us": "Obsolete Compressed Jet Ochre",
- "typeName_es": "Obsolete Compressed Jet Ochre",
+ "typeName_en-us": "Batch Compressed Jet Ochre",
+ "typeName_es": "Batch Compressed Jet Ochre",
"typeName_fr": "Ochre de jais compressé",
- "typeName_it": "Obsolete Compressed Jet Ochre",
+ "typeName_it": "Batch Compressed Jet Ochre",
"typeName_ja": "圧縮ジェットオークル",
"typeName_ko": "압축된 암흑 오커",
"typeName_ru": "Compressed Jet Ochre",
@@ -15964,10 +15964,10 @@
"basePrice": 157500.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Gneiss-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Gneiss. Gneiss ist ein beliebtes Erz, da es erhebliche Mengen von drei der am meisten verwendeten Mineralien enthält, was seinen Nutzen erhöht. Es enthält ziemlich viel Mexallon und auch etwas Pyerite und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de gneiss a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui du gneiss classique lors de son retraitement. Le gneiss est un minerai très demandé, car il contient des quantités importantes de trois minéraux très utilisés, ce qui augmente sa valeur utilitaire. Il contient beaucoup de mexallon, ainsi qu'un peu de pyérite et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるナエスの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のナエスより15%も多いことが確認された。\r\n\n頻繁に利用される無機物3種類を大量に含んでいるナエスは、実用性に優れ人気の高い鉱石である。メクサロンが多分に含まれ、さらにある程度のパイライトやアイソゲンも入手できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 니스입니다. 광석을 조사한 결과 일반적인 니스에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
니스에는 다량의 멕살론과 소량의 파이어라이트와 이소젠이 함유되어 있어 꾸준한 수요를 자랑합니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность гнейсса была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного гнейсса. Гнейсс пользуется большим спросом, поскольку эта руда содержит три широко используемых минерала: Гнейсс содержит немного мексаллона, а также пирит и изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -15984,10 +15984,10 @@
"radius": 1.0,
"typeID": 46695,
"typeName_de": "Compressed Brilliant Gneiss",
- "typeName_en-us": "Obsolete Compressed Brilliant Gneiss",
- "typeName_es": "Obsolete Compressed Brilliant Gneiss",
+ "typeName_en-us": "Batch Compressed Brilliant Gneiss",
+ "typeName_es": "Batch Compressed Brilliant Gneiss",
"typeName_fr": "Gneiss nitescent compressé",
- "typeName_it": "Obsolete Compressed Brilliant Gneiss",
+ "typeName_it": "Batch Compressed Brilliant Gneiss",
"typeName_ja": "圧縮ブリリアント・ナエス",
"typeName_ko": "압축된 진녹빛 니스",
"typeName_ru": "Compressed Brilliant Gneiss",
@@ -15999,10 +15999,10 @@
"basePrice": 56000.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Hedbergite-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Hedbergite. Hedbergite ist begehrt wegen seines hohen Gehalts an Pyerite und Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai d'hedbergite a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de l'hedbergite classique lors de son retraitement. L'hedbergite est recherchée pour sa forte teneur en pyérite et en nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるヘッドバーガイトの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時のミネラル生成量が、通常のヘッドバーガイトより15%も多いことが確認された。\r\n\nヘッドバーガイトは、パイライトとノキシウムの含有密度が高いために人気がある。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 헤버자이트입니다. 광석을 조사한 결과 일반적인 헤버자이트에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
헤버자이트에는 다량의 파이어라이트와 녹시움이 함유되어 있어 꾸준한 수요를 자랑합니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность хедбергита была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного хедбергита. Хедбергит ценится за высокое содержание пирита и ноксия. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16019,10 +16019,10 @@
"radius": 1.0,
"typeID": 46696,
"typeName_de": "Compressed Lustrous Hedbergite",
- "typeName_en-us": "Obsolete Compressed Lustrous Hedbergite",
- "typeName_es": "Obsolete Compressed Lustrous Hedbergite",
+ "typeName_en-us": "Batch Compressed Lustrous Hedbergite",
+ "typeName_es": "Batch Compressed Lustrous Hedbergite",
"typeName_fr": "Hedbergite miroitante compressée",
- "typeName_it": "Obsolete Compressed Lustrous Hedbergite",
+ "typeName_it": "Batch Compressed Lustrous Hedbergite",
"typeName_ja": "圧縮光沢ヘッドバーガイト",
"typeName_ko": "압축된 광채나는 헤버자이트",
"typeName_ru": "Compressed Lustrous Hedbergite",
@@ -16034,10 +16034,10 @@
"basePrice": 122000.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Hemorphite-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Hemorphite. Wegen seines hohen Anteils an Nocxium ist Hemorphite immer ein lohnender Fund. Es kommt oft genug vor, sodass auch unerfahrene Bergleute davon ausgehen können, es zufällig zu finden. Hemorphite enthält außerdem eine geringe Menge an Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai d'hemorphite a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de l'hemorphite standard lors de son retraitement. Grâce à la grande proportion de nocxium qu'elle contient, l'hemorphite est un minerai intéressant à récupérer. Elle est suffisamment répandue pour que même des mineurs débutants puissent en trouver. L'hemorphite recèle également des filons d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるヘモファイトの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のヘモファイトより15%も多いことが確認された。\r\n\nヘモファイトはノキシウムを大量に含むため、その発見は常に歓迎すべきものだ。広く分布している鉱石で、採掘の初心者でも十分に発見が可能だ。またヘモファイトには、ある程度のアイソゲンが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 헤모르파이트입니다. 광석을 조사한 결과 일반적인 헤모르파이트에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
헤모르파이트에는 녹시움이 다량 함유되어 시장 가치가 높고 우주 전역에 분포되어 초보자들도 쉽게 접근할 수 있습니다. 헤모르파이트는 녹시움 외에도 이소젠을 함유하고 있습니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность хеморфита была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного хеморфита. Благодаря большой концентрации ноксия хеморфит всегда будет ценной находкой. Это довольно распространённый вид руды, и отыскать её сможет даже начинающий буровик. Кроме того, хеморфит содержит изоген. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16054,10 +16054,10 @@
"radius": 1.0,
"typeID": 46697,
"typeName_de": "Compressed Scintillating Hemorphite",
- "typeName_en-us": "Obsolete Compressed Scintillating Hemorphite",
- "typeName_es": "Obsolete Compressed Scintillating Hemorphite",
+ "typeName_en-us": "Batch Compressed Scintillating Hemorphite",
+ "typeName_es": "Batch Compressed Scintillating Hemorphite",
"typeName_fr": "Hemorphite diaprée compressée",
- "typeName_it": "Obsolete Compressed Scintillating Hemorphite",
+ "typeName_it": "Batch Compressed Scintillating Hemorphite",
"typeName_ja": "圧縮光り輝くヘモファイト",
"typeName_ko": "압축된 무지개빛 헤모르파이트",
"typeName_ru": "Compressed Scintillating Hemorphite",
@@ -16069,10 +16069,10 @@
"basePrice": 48300.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Jaspet-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Jaspet. Jaspet enthält zwei wertvolle Mineralienarten, was es leicht verkäuflich macht. Es enthält einen großen Anteil Mexallon sowie etwas Nocxium. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de jaspet a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui du jaspet classique lors de son retraitement. Riche de deux types de minéraux précieux, le jaspet est une valeur sûre du marché. Il contient une grande proportion de mexallon, ainsi que du nocxium. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるジェスペットの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時のミネラル生成量が、通常のジェスペットより15%も多いことが確認された。\r\n\nジャスペットには2種類の貴重な無機物が含まれているため、需要が高い。大量のメクサロンと少量のノキシウムが含まれている。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 자스페트입니다. 광석을 조사한 결과 일반적인 자스페트에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
자스페트의 주요 광물 중 두 가지인 멕살론과 녹시움이 상당량 함유되어 있어 꾸준한 수요를 자랑합니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность джаспета была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного джаспета. В состав джаспета входят два ценных минерала, что делает эту руду ходовым товаром. В ней содержится ноксий и большое количество мексаллона. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16089,10 +16089,10 @@
"radius": 1.0,
"typeID": 46698,
"typeName_de": "Compressed Immaculate Jaspet",
- "typeName_en-us": "Obsolete Compressed Immaculate Jaspet",
- "typeName_es": "Obsolete Compressed Immaculate Jaspet",
+ "typeName_en-us": "Batch Compressed Immaculate Jaspet",
+ "typeName_es": "Batch Compressed Immaculate Jaspet",
"typeName_fr": "Jaspet immaculé compressé",
- "typeName_it": "Obsolete Compressed Immaculate Jaspet",
+ "typeName_it": "Batch Compressed Immaculate Jaspet",
"typeName_ja": "圧縮無垢ジャスペット",
"typeName_ko": "압축된 순수한 자스페트",
"typeName_ru": "Compressed Immaculate Jaspet",
@@ -16104,10 +16104,10 @@
"basePrice": 34200.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Kernite-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Kernite. Kernite ist ein weit verbreiteter Erztyp mit sehr hohen Anteilen an Mexallon und Isogen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de kernite a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de la kernite classique lors de son retraitement. La kernite est un minerai plutôt commun qui produit de grandes quantités de mexallon et d'isogène. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるケルナイトの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のケルナイトより15%も多いことが確認された。\r\n\nケルナイトは広く普及している鉱石で、ある程度のメクサロンとアイソゲンを含む。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 커나이트입니다. 광석을 조사한 결과 일반적인 커나이트에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
커나이트는 비교적 흔하게 발견되는 광석 가운데 하나로 다량의 멕살론과 이소젠이 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность кернита была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного кернита. Кернит — довольно распространённая руда с большим содержанием мексаллона и изогена. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16123,10 +16123,10 @@
"radius": 1.0,
"typeID": 46699,
"typeName_de": "Compressed Resplendant Kernite",
- "typeName_en-us": "Obsolete Compressed Resplendant Kernite",
- "typeName_es": "Obsolete Compressed Resplendant Kernite",
+ "typeName_en-us": "Batch Compressed Resplendant Kernite",
+ "typeName_es": "Batch Compressed Resplendant Kernite",
"typeName_fr": "Kernite resplendissante compressée",
- "typeName_it": "Obsolete Compressed Resplendant Kernite",
+ "typeName_it": "Batch Compressed Resplendant Kernite",
"typeName_ja": "圧縮ルミナスケルナイト",
"typeName_ko": "압축된 달빛 커나이트",
"typeName_ru": "Compressed Resplendant Kernite",
@@ -16138,10 +16138,10 @@
"basePrice": 11000.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Omber-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Omber. Omber ist ein weitverbreitetes und für Anfänger immer noch hervorragendes Erz, da es neben einer großen Menge an Isogen auch Pyerite enthält. Schon nach wenigen Bergbau-Einsätzen kann ein Neuling so relativ schnell seinen Status erhöhen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai d'omber a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de l'omber classique lors de son retraitement. L'omber est un minerai brut recommandé pour les mineurs néophytes, car il contient une proportion non négligeable d'isogène, ainsi que de la pyérite. Quelques voyages suffisent à faire rapidement monter un mineur débutant en grade. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるオンバーの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のオンバーより15%も多いことが確認された。\r\n\nオンバーはありふれた鉱石だが、かなりの量のアイソゲンを含み、トリタニウムとパイライトも多少採れるため、採掘初心者にはうってつけだ。この鉱石を何回か採掘しに行けば、すぐに鉱山労働者としてのステップを上がれることだろう。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 옴버입니다. 광석을 조사한 결과 일반적인 옴버에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
옴버는 비교적 흔하게 발견되는 광석 가운데 하나로 다량의 이소젠과 평균적인 수준의 파이어라이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность омбера была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного омбера. Омбер — широко распространённая руда, но он отлично подходит начинающим буровикам, поскольку содержит достаточно изогена и некоторое количество пирита. Добыча нескольких партий этой руды поможет начинающему буровику быстро заработать репутацию. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16157,10 +16157,10 @@
"radius": 1.0,
"typeID": 46700,
"typeName_de": "Compressed Platinoid Omber",
- "typeName_en-us": "Obsolete Compressed Platinoid Omber",
- "typeName_es": "Obsolete Compressed Platinoid Omber",
+ "typeName_en-us": "Batch Compressed Platinoid Omber",
+ "typeName_es": "Batch Compressed Platinoid Omber",
"typeName_fr": "Omber platinoïde compressée",
- "typeName_it": "Obsolete Compressed Platinoid Omber",
+ "typeName_it": "Batch Compressed Platinoid Omber",
"typeName_ja": "圧縮プラチノイド・オンバー",
"typeName_ko": "압축된 백금 옴버",
"typeName_ru": "Compressed Platinoid Omber",
@@ -16172,10 +16172,10 @@
"basePrice": 7750.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Plagioclase-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Plagioclase. Plagioclase gehört nicht zu den wertvollsten Erzarten, sein hoher Tritanium-Gehalt sorgt aber für eine kontinuierliche Nachfrage. Es enthält auch Spuren von Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de plagioclase a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui du plagioclase classique lors de son retraitement. Le plagioclase n'est certainement pas le minerai brut le plus précieux, mais il contient une grande quantité de tritanium, et c'est pourquoi sa demande ne faiblit jamais. Il produit également du mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるプラジオクレイスの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のプラジオクレイスより15%も多いことが確認された。\r\n\nプラジオクレイスは、それほど高値で取り引きされる類の鉱石ではないが、トリタニウムの含有率が高いため、常に需要が絶えない。少量ながらメクサロンも採れる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 플레지오클레이스입니다. 광석을 조사한 결과 일반적인 플레지오클레이스에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
플레지오클레이스의 가치는 상대적으로 낮지만 다량의 트리타늄을 함유하고 있어 꾸준한 수요를 자랑합니다. 트리타늄 외에도 소량의 멕살론을 함유하고 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность плагиоклаза была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного плагиоклаза. Плагиоклаз не отличается особой ценностью, однако он содержит большое количество тритания и потому пользуется постоянным спросом. Из этой руды также извлекают мексаллон. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16191,10 +16191,10 @@
"radius": 1.0,
"typeID": 46701,
"typeName_de": "Compressed Sparkling Plagioclase",
- "typeName_en-us": "Obsolete Compressed Sparkling Plagioclase",
- "typeName_es": "Obsolete Compressed Sparkling Plagioclase",
+ "typeName_en-us": "Batch Compressed Sparkling Plagioclase",
+ "typeName_es": "Batch Compressed Sparkling Plagioclase",
"typeName_fr": "Plagioclase rutilant compressé",
- "typeName_it": "Obsolete Compressed Sparkling Plagioclase",
+ "typeName_it": "Batch Compressed Sparkling Plagioclase",
"typeName_ja": "圧縮スパークリング・プラジオクレイス",
"typeName_ko": "압축된 강력한 플레지오클레이스",
"typeName_ru": "Compressed Sparkling Plagioclase",
@@ -16206,10 +16206,10 @@
"basePrice": 6100.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Pyroxeres-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Pyroxeres. Pyroxeres ist ein gewöhnliches Erz, das in allen Regionen des Weltraums vorkommt. Es enthält moderate Mengen an Pyerite und Mexallon. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de pyroxeres a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui du pyroxeres classique lors de son retraitement. Le pyroxeres est un minerai commun disséminé à travers toutes les régions de l'espace. Il contient des proportions non négligeables de pyérite et de mexallon. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるパイロゼリーズの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時の無機物生成量が、通常のパイロゼリーズより15%も多いことが確認された。\r\n\nパイロゼリーズは全宙域で普遍的に見つかる鉱物で、相当量のパイライトとメクサロンを含有している。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 파이로제레스입니다. 광석을 조사한 결과 일반적인 파이로제레스에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
파이로제레스는 우주 전역에서 발견되는 흔한 광석으로 다량의 파이어라이트와 멕살론이 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность пироксера была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного пироксера. Пироксер — распространённый вид руды. Встречается во всех секторах. Богат пиритом и мексаллоном. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16225,10 +16225,10 @@
"radius": 1.0,
"typeID": 46702,
"typeName_de": "Compressed Opulent Pyroxeres",
- "typeName_en-us": "Obsolete Compressed Opulent Pyroxeres",
- "typeName_es": "Obsolete Compressed Opulent Pyroxeres",
+ "typeName_en-us": "Batch Compressed Opulent Pyroxeres",
+ "typeName_es": "Batch Compressed Opulent Pyroxeres",
"typeName_fr": "Pyroxeres exubérant compressé",
- "typeName_it": "Obsolete Compressed Opulent Pyroxeres",
+ "typeName_it": "Batch Compressed Opulent Pyroxeres",
"typeName_ja": "圧縮オプレントパイロゼリーズ",
"typeName_ko": "압축된 고체 파이로제레스",
"typeName_ru": "Compressed Opulent Pyroxeres",
@@ -16240,10 +16240,10 @@
"basePrice": 2500.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Scordite-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Scordite. Scordite gehört zu den am häufigsten vorkommenden Erzarten in den zentralen Regionen des bekannten Universums. Es enthält einen moderaten Anteil an Tritanium und Pyerite. Eine gute Wahl für diejenigen, die mit einer Bergbaukarriere beginnen. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de scordite a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui de la scordite classique lors de son retraitement. La scordite est l'un des minerais les plus courants dans les régions centrales de l'univers connu. Elle contient des proportions non négligeables de tritanium et de pyérite. C'est un choix tout indiqué pour qui commence sa carrière de mineur. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるスコダイトの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時のミネラル生成量が、通常のスコダイトより15%も多いことが確認された。\r\n\nスコダイトは、既知宇宙の中心宙域に普及している最も一般的な鉱石である。かなりの量のトリタニウムとパイライトが採れる。採掘初心者に適した鉱石。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 스코다이트입니다. 광석을 조사한 결과 일반적인 스코다이트에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
스코다이트는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 다량의 트리타늄과 파이어라이트가 함유되어 있습니다. 채굴을 시작한지 얼마 안된 초보자들에게 적합한 광석입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность скордита была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного скордита. Скордит — одна из самых распространённых руд в центральных секторах известной части вселенной. В нём содержится довольно много тритания и пирита. Отличный выбор для тех, кто решил начать карьеру пилота-буровика. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16259,10 +16259,10 @@
"radius": 1.0,
"typeID": 46703,
"typeName_de": "Compressed Glossy Scordite",
- "typeName_en-us": "Obsolete Compressed Glossy Scordite",
- "typeName_es": "Obsolete Compressed Glossy Scordite",
+ "typeName_en-us": "Batch Compressed Glossy Scordite",
+ "typeName_es": "Batch Compressed Glossy Scordite",
"typeName_fr": "Scordite vernie compressée",
- "typeName_it": "Obsolete Compressed Glossy Scordite",
+ "typeName_it": "Batch Compressed Glossy Scordite",
"typeName_ja": "圧縮グロッシー・スコダイト",
"typeName_ko": "압축된 카오스 스코다이트",
"typeName_ru": "Compressed Glossy Scordite",
@@ -16274,10 +16274,10 @@
"basePrice": 463000.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Spodumain-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Spodumain. Spodumain gehört zu den begehrtesten Erzen, da es große Mengen der am meisten benötigten Ressource sowie Spuren einiger der wertvolleren Mineralien enthält. Große Mengen an Tritanium sowie bescheidene Mengen an Isogen, Nocxium, Zydrine und Megacyte können durch die Aufbereitung dieser Felsen gewonnen werden. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de spodumain a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui du spodumain classique lors de son retraitement. Le spodumain compte parmi les types de minerai les plus convoités, car il contient d'importantes quantités des minéraux les plus demandés du marché et recèle des filons de minerais précieux. Le raffinage de cette roche fournit un rendement considérable de tritanium, ainsi qu'un volume modéré d'isogène, de nocxium, de zydrine et de mégacyte. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるスポデュメインの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時のミネラル生成量が、通常のスポデュメインより15%も多いことが確認された。\r\n\nスポデュメインは最も需要の大きい資源を大量に含み、また比較的希少な無機物もある程度抽出できる非常に人気の高い鉱石である。これを精錬することで、膨大な量のトリタニウムと、幾分かのアイソゲン、ノキシウム、ザイドリン、メガサイトを採取できる。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 스포듀마인입니다. 광석을 조사한 결과 일반적인 스포듀마인에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
각종 광물을 다량 함유하고 있어 상당한 가치를 지닌 광석으로 취급됩니다. 스포듀마인에는 다량의 트리타늄과 평균적인 수준의 이소젠, 녹시움, 자이드라인, 그리고 메가사이트가 함유되어 있습니다.
성분 밀도가 높은 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность сподумейна была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного сподумейна. Сподумейн ценится чрезвычайно высоко: он в больших объёмах содержит самый востребованный ресурс и в меньших — более редкие минералы. При переработке сподумейна можно получить очень много тритания и умеренное количество изогена, ноксия, зидрина и мегацита. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16294,10 +16294,10 @@
"radius": 1.0,
"typeID": 46704,
"typeName_de": "Compressed Dazzling Spodumain",
- "typeName_en-us": "Obsolete Compressed Dazzling Spodumain",
- "typeName_es": "Obsolete Compressed Dazzling Spodumain",
+ "typeName_en-us": "Batch Compressed Dazzling Spodumain",
+ "typeName_es": "Batch Compressed Dazzling Spodumain",
"typeName_fr": "Spodumain éblouissant compressé",
- "typeName_it": "Obsolete Compressed Dazzling Spodumain",
+ "typeName_it": "Batch Compressed Dazzling Spodumain",
"typeName_ja": "圧縮ダズリング・スポデュメイン",
"typeName_ko": "압축된 균형잡힌 스포듀마인",
"typeName_ru": "Compressed Dazzling Spodumain",
@@ -16309,10 +16309,10 @@
"basePrice": 1860.0,
"capacity": 0.0,
"description_de": "Diese äußerst seltene und wertvolle Variante des Veldspar-Erzes wurde erst vor Kurzem von ORE-Ingenieuren während eines Feldversuchs mit neuer Mond-Bergbautechnologie entdeckt. Bei weiteren Tests wurde bestätigt, dass sich aus diesem Erz 15% mehr Mineralien gewinnen lassen als bei der Aufbereitung von normalem Veldspar. Veldspar ist die am häufigsten vorkommende Erzart in den zentralen Regionen des bekannten Universums. Da Veldspar eine große Menge des häufig gebrauchten Minerals Tritanium enthält, besteht noch immer eine ständige Nachfrage. Dieses Erz ist eine komprimierte und viel dichtere Version des ursprünglichen Erzes.",
- "description_en-us": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
- "description_es": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_en-us": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
+ "description_es": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_fr": "Cette variante extrêmement rare et précieuse du minerai de veldspar a récemment été découverte par des ingénieurs de l'ORE lors de tests préliminaires d'une nouvelle technologie d'extraction lunaire. Des tests effectués sur ce minerai ont permis de confirmer que son rendement en minéraux est supérieur de 15 % à celui du veldspar classique lors de son retraitement. Le veldspar est l'un des minerais les plus courants dans les régions centrales de l'univers connu. La demande en veldspar ne faiblit jamais car il contient du tritanium, l'un des minéraux les plus exploités de l'amas. Ce minerai est une version condensée, beaucoup plus dense que le minerai brut d'origine.",
- "description_it": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore.",
+ "description_it": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material was compressed using an older process that compressed batches of raw materials into units using a set input quantity. Newer compression technology uses a more flexible one-to-one unit compression system.",
"description_ja": "新型の衛星採掘技術の初期フィールドテストの最中、OREの技術者たちが極めて貴重で価値のあるベルドスパーの変種を発見した。その後行われたテストにより、この鉱石は再処理を行った時のミネラル生成量が、通常のベルドスパーより15%も多いことが確認された。\r\n\nベルドスパーは既知宇宙の中心宙域に最も普及している鉱石で、どこに行っても見つけることができる。しかし用途の広い無機物であるトリタニウムを多く含むため、需要は絶えない。\r\n\nこの鉱石は圧縮処理されており原石よりはるかに密度が高い。",
"description_ko": "ORE 엔지니어들이 위성 채굴 현장에서 발견한 희귀 벨드스파입니다. 광석을 조사한 결과 일반적인 벨드스파에 비해 미네랄 산출량이 약 15% 가량 더 높은 것으로 밝혀졌습니다.
벨드스파는 뉴에덴의 중심부에서 발견되는 흔한 광석 가운데 하나로 트리타늄의 주요 공급원입니다.
압축된 광석으로 일반 등급의 광석보다 산출량이 높습니다.",
"description_ru": "Эта невероятно редкая и ценная разновидность вельдспара была обнаружена инженерами ОРЭ совсем недавно, на раннем этапе полевых испытаний новой технологии добычи руды со спутников. Дальнейшие тесты подтвердили, что в результате переработки из такой руды можно получить минералов на 15% больше, чем из обычного вельдспара. Вельдспар — самая распространённая руда в центральных секторах известной части вселенной. Вельдспар содержит большое количество повсеместно используемого тритания, поэтому спрос на него никогда не падает. Это сжатая руда. Она имеет гораздо большую плотность, чем первоначальная порода.",
@@ -16328,10 +16328,10 @@
"radius": 1.0,
"typeID": 46705,
"typeName_de": "Compressed Stable Veldspar",
- "typeName_en-us": "Obsolete Compressed Stable Veldspar",
- "typeName_es": "Obsolete Compressed Stable Veldspar",
+ "typeName_en-us": "Batch Compressed Stable Veldspar",
+ "typeName_es": "Batch Compressed Stable Veldspar",
"typeName_fr": "Veldspar stable compressé",
- "typeName_it": "Obsolete Compressed Stable Veldspar",
+ "typeName_it": "Batch Compressed Stable Veldspar",
"typeName_ja": "圧縮安定ベルドスパー",
"typeName_ko": "압축된 고밀도 벨드스파",
"typeName_ru": "Compressed Stable Veldspar",
@@ -42453,7 +42453,7 @@
"description_fr": "Cette structure triglavian semble être conçue pour servir de conduit de transfert entre deux zones stables situées au sein de poches de l'abîme Deadspace. Comme souvent dans la technologie triglavian, la force de cet appareil provient de l'exploitation de singularités spatio-temporelles. Étant donné que le conduit utilise trois de ces singularités, ses besoins en énergie doivent être considérables.",
"description_it": "This Triglavian structure seems designed to function as a transfer conduit between stable zones within Abyssal Deadspace pockets. As with most Triglavian technology, the power for this device is drawn from harnessed space-time singularities. As the conduit clearly uses an array of three such singularities, the energy requirements must be considerable.",
"description_ja": "トリグラビアンのストラクチャは、アビサルデッドスペースポケットに存在する安定したゾーンに接続された転送導管として機能するよう設計されているらしい。ほとんどのトリグラビアンのテクノロジーと同じように、この装置の動力は内蔵された時空特異点から取り出されている。この導管は特異点を3個使用しており、そのエネルギー必要量は相当なものであるはずだ。",
- "description_ko": "어비설 데드스페이스 내 안정적인 우주공간 사이를 연결함과 동시에 이동을 가능케 하는 트리글라비안 시설로 추측됩니다. 트라글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다.",
+ "description_ko": "어비설 데드스페이스 내 안정적인 우주공간 사이를 연결함과 동시에 이동을 가능케 하는 트리글라비안 시설로 추측됩니다. 트리글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다.",
"description_ru": "Это сооружение Триглава предположительно разработано в качестве канала связи между устойчивыми зонами внутри участков Мёртвой бездны. Как и остальные технологии Триглава, это устройство черпает энергию из управляемых пространственно-временных сингулярностей. Учитывая, что для работы канала нужны три таких сингулярности, ему необходим мощный источник питания.",
"description_zh": "这个三神裔建筑似乎是用来在深渊空间层的稳定地带之间建立传输导管。与大多数三神裔科技相同,这种设备的能量来自于时空奇点。鉴于导管使用了三个这种奇点组成的阵列,所需要的能量十分巨大。",
"descriptionID": 536468,
@@ -42487,7 +42487,7 @@
"description_fr": "Cette structure triglavian semble servir de moyen de transport pour les longues distances et fonctionne comme un conduit pour renvoyer à son point de départ un vaisseau ayant utilisé un filament abyssal. Comme souvent dans la technologie triglavianne, la force de cet appareil provient de l'exploitation de singularités spatio-temporelles. Le conduit utilisant trois de ces singularités, les besoins en énergie doivent être considérables.",
"description_it": "This Triglavian structure seems to function as a means of long-distance travel and will function as a conduit that will return a vessel that has used an Abyssal Filament to its ultimate point of origin. As with most Triglavian technology, the power for this device is drawn from harnessed space-time singularities. As the conduit clearly uses an array of three such singularities, the energy requirements must be considerable.",
"description_ja": "このトリグラビアンストラクチャは、長距離移動の手段として機能しているようで、アビサルフィラメントを使用した船を原極点に戻すための導管として機能する。ほとんどのトリグラビアンのテクノロジーと同じように、この装置の動力は内蔵された時空特異点から抽出されている。この導管は特異点を3個使用しており、そのエネルギー必要量は相当なものであるはずだ。",
- "description_ko": "어비설 데드스페이스에서 필라멘트를 최초 사용한 지점으로 귀환합니다. 트라글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다.",
+ "description_ko": "어비설 데드스페이스에서 필라멘트를 최초 사용한 지점으로 귀환합니다. 트리글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다.",
"description_ru": "Это сооружение Триглава, судя по всему, позволяет перемещаться на дальние расстояния и выполняет роль канала, который может возвратить корабль, использовавший нить бездны в начальную точку. Как и в случае с остальными технологиями Триглава, это устройство черпает энергию из управляемых пространственно-временных сингулярностей. Учитывая, что для работы канала нужны три таких сингулярности, ему необходимо мощный источник питания.",
"description_zh": "这个三神裔建筑似乎是承担长距离航行的功能。它作为一个导管,将任何使用深渊纤维的舰船传送回其初始位置。与大多数三神裔科技相同,这种设备的能量来自于时空奇点。鉴于导管使用了三个这种奇点组成的阵列,所需要的能量十分巨大。",
"descriptionID": 536469,
@@ -56226,6 +56226,7 @@
"marketGroupID": 2503,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -56260,6 +56261,7 @@
"marketGroupID": 2504,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -56294,6 +56296,7 @@
"marketGroupID": 2505,
"mass": 1.0,
"metaGroupID": 19,
+ "metaLevel": 6,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -85305,7 +85308,7 @@
"description_fr": "Avertissement : CONCORD s'est assuré que de tels conduits mènent aux zones de l'abîme Deadspace où se produisent des combats avec d'autres capsuliers ! Cette structure triglavian est conçue pour servir de conduit de transfert entre deux zones stables situées au sein de poches de l'abîme Deadspace. Les zones où mène ce type de conduit semblent être plus sécurisées et constituent soit des sortes de stations-relais, soit des lieux sociaux ou rituels du Collectif Triglavian. Comme souvent dans la technologie triglavian, la force de cet appareil provient de l'exploitation d'anomalies spatio-temporelles. Étant donné que le conduit utilise trois de ces anomalies, ses besoins en énergie doivent être considérables.",
"description_it": "Warning: CONCORD has established that conduits of this type lead to areas of Abyssal Deadspace where combat with other capsuleers will ensue!\r\n\r\nThis Triglavian structure is designed to function as a transfer conduit between stable zones within Abyssal Deadspace pockets. The zones this type of conduit leads to seem to be more secure and are either waystations of some kind, or perhaps have a social or ritual purpose for the Triglavian Collective. As with most Triglavian technology, the power for this device is drawn from harnessed space-time singularities. As the conduit clearly uses an array of three such singularities, the energy requirements must be considerable.",
"description_ja": "警告: CONCORDはこのタイプの導管がアビサルデッドスペースにつながることを立証しています。中に入れば他のカプセラとの戦闘が勃発するでしょう!\r\n\nトリグラビアンのストラクチャは、アビサルデッドスペースポケットの安定したゾーンをつなぐ、転送導管として機能するよう設計されている。このタイプの導管がつながっているのはより安全なゾーンで、何らかの道標か、あるいはトリグラビアンコレクティブの社会的・儀式的な目的を持った場所なのかもしれない。ほとんどのトリグラビアンのテクノロジーと同じように、この装置の動力は内蔵された時空特異点から抽出されている。この導管は特異点を3個使用しており、そのエネルギー必要量は相当なものであるはずだ。",
- "description_ko": "경고: CONCORD에 의하면 트리글라비안 격전 전송기는 다른 캡슐리어들과 전투가 벌어질 수 있는 어비설 데드스페이스로 연결됩니다!
어비설 데드스페이스 포켓 사이로 함선을 이동시킬 수 있는 트리글라비안 전송기입니다. 전송기 근방은 비교적 안전한 지역으로 트리글라비안의 중간 기착지 또는 의식 집행 등의 사회적인 기능을 수행하는 곳으로 추측됩니다. 트라글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다.",
+ "description_ko": "경고: CONCORD에 의하면 트리글라비안 격전 전송기는 다른 캡슐리어들과 전투가 벌어질 수 있는 어비설 데드스페이스로 연결됩니다!\r\n\r\n어비설 데드스페이스 포켓 사이로 함선을 이동시킬 수 있는 트리글라비안 전송기입니다. 전송기 근방은 비교적 안전한 지역으로 트리글라비안의 중간 기착지 또는 의식 집행 등의 사회적인 기능을 수행하는 곳으로 추측됩니다. 트리글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다.",
"description_ru": "Внимание: КОНКОРДом установлено, что каналы такого типа приводят в участки Мёртвой бездны, где неизбежны боевые столкновения с другими капсулёрами! Это сооружение Триглава разработано в качестве канала связи между устойчивыми зонами внутри участков Мёртвой бездны. Районы, в которые ведёт такой канал, довольно безопасны и, судя по всему, являются чем-то вроде перевалочных пунктов. Возможно, они также играют важную общественную или ритуальную роль для Сообщества Триглава. Как и остальные технологии Триглава, это устройство черпает энергию из управляемых пространственно-временных сингулярностей. Учитывая, что для работы канала нужны три таких сингулярности, ему необходим мощный источник питания.",
"description_zh": "警告:统合部已公告称此类导管通往的深渊空间中会发生与其他克隆飞行员的战斗!\n\n\n\n这个三神裔建筑被设计用来在深渊空间层的稳定地带之间建立传输导管。这种导管指向的地点似乎更为安全,要么是座中转站,要么是被三神裔用于社交或仪式用途。与大多数三神裔科技相同,这种设备的能量来自于时空奇点。鉴于导管使用了三个这种奇点组成的阵列,所需要的能量十分巨大。",
"descriptionID": 543552,
@@ -87605,7 +87608,7 @@
"description_fr": "Cette caisse de confinement scellée contient un filament abyssal paisible de type aléatoire, qui peut vous transporter dans une poche d'abîme Deadspace.",
"description_it": "This sealed containment crate holds a Calm Abyssal Filament of a random weather type that can transport you to an Abyssal Deadspace pocket.",
"description_ja": "この密閉された箱には1個のカーム・アビサルフィラメントが入っている。フィラメントはランダムな天候を起こし、それを使ってアビサルデッドスペースポケットに行くことができる。",
- "description_ko": "어비설 데드스페이스 포켓으로 이동시켜주는 고요한 어비설 필라멘트(무작위 기상 속성)가 담겨 있는 격납용기입니다.",
+ "description_ko": "안정된 어비설 필라멘트가 담긴 상자입니다. 필라멘트 활성화 시 무작위 환경 효과를 지닌 어비설 데드스페이스 포켓으로 이동할 수 있습니다.",
"description_ru": "Внутри этого герметичного контейнера находится нить бездны, ведущая в участок Мёртвой бездны со спокойной средой и случайными климатическими условиями..",
"description_zh": "这个密封的箱子里面有一个随机类型的镇静深渊纤维,可以将你传送到一个深渊空间层中。",
"descriptionID": 543521,
@@ -87625,7 +87628,7 @@
"typeName_fr": "Caisse de filaments abyssaux paisibles",
"typeName_it": "Calm Abyssal Filaments Crate",
"typeName_ja": "カーム・アビサルフィラメント箱",
- "typeName_ko": "고요한 어비설 필라멘트 상자",
+ "typeName_ko": "안정된 어비설 필라멘트 상자",
"typeName_ru": "Calm Abyssal Filaments Crate",
"typeName_zh": "镇静深渊纤维箱",
"typeNameID": 543126,
@@ -95768,7 +95771,7 @@
"typeName_es": "Vedmak Metamateria Exotica SKIN",
"typeName_fr": "SKIN Vedmak édition Metamateria Exotica",
"typeName_it": "Vedmak Metamateria Exotica SKIN",
- "typeName_ja": "ヴェドマック・メタマテリア・エキゾティカ仕様のSKIN",
+ "typeName_ja": "ヴェドマック・メタマテリア・エキゾティカSKIN",
"typeName_ko": "베드마크 '메타마테리아 엑조티카' SKIN",
"typeName_ru": "Vedmak Metamateria Exotica SKIN",
"typeName_zh": "维德马克级异种材料涂装",
@@ -107436,7 +107439,7 @@
"description_fr": "Cette structure triglavian semble être conçue pour servir de conduit de transfert de la même manière que celles vues dans l'abîme Deadspace. Étrangement, les relevés issus de cette variante de conduit de transfert indiquent que ses conduits sont intriqués avec des coordonnées locales correspondant à des emplacements stables dans la topologie spatio-temporelle proche du puits de gravité stellaire de l'étoile principale du système stellaire. Comme souvent dans la technologie triglavian, la puissance de cet appareil provient de l'exploitation de singularités spatio-temporelles. Étant donné que le conduit utilise trois de ces singularités, ses besoins en énergie doivent être considérables. Nous ignorons encore quel est le but de l'installation d'un conduit de transfert local focalisé sur un puits de gravité stellaire de la part des envahisseurs triglavian.",
"description_it": "This Triglavian structure seems designed to function as a transfer conduit in a similar fashion to those seen in Abyssal Deadspace. Unusually, readings taken from this variant of the transfer conduit indicate their conduits are typically entangled with local co-ordinates corresponding to stable locations in the spatio-temporal topology proximate to the stellar gravity well of a star system's primary star.\r\n\r\nAs with most Triglavian technology, the power for this device is drawn from harnessed space-time singularities. As the conduit clearly uses an array of three such singularities, the energy requirements must be considerable. The purpose to which the Triglavian invasion forces are putting a local transfer conduit focused on a stellar gravity well are as yet unknown.",
"description_ja": "このトリグラビアンストラクチャは、アビサルデッドスペースで見られるものと同様の方法で、転送導管として機能するように設計されているようだ。驚くべきことに、この変化形の転送導管から得られた測定値は、その導管が、星系主星の重力場付近に存在する、時空間トポロジーの安定した位置に対応する局所的な座標と絡み合っていることを示している。\r\n\nほとんどのトリグラビアンのテクノロジーと同じように、この装置の動力は内蔵された時空特異点から取り出されている。この導管は特異点を3個使用しており、そのエネルギー必要量は相当なものであるはずだ。トリグラビアン侵攻軍が恒星重力場に焦点を当てた局所的な転送導管を設置している目的はまだ不明である。",
- "description_ko": "이 트리글라비안 시설은 어비설 데드스페이스에서 발견되는 것들과 비슷한 방식으로 설계된 연결 전송기로 보입니다. 이 기종의 연결 전송기가 수신한 신호를 분석해 보면, 특이하게도 대개 항성계 주 항성의 중력 우물에 인접한 시공간 위상 배치도 상의 안정적인 영역에 해당하는 국소 좌표와 밀접하게 연관되어 있음을 알 수 있습니다.
트라글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다. 트리글라비안 침략군이 국소 연결 전송기를 천체 중력 우물을 향하게 해 놓은 목적이 무엇인지는 아직 알려지지 않았습니다.",
+ "description_ko": "이 트리글라비안 시설은 어비설 데드스페이스에서 발견되는 것들과 비슷한 방식으로 설계된 연결 전송기로 보입니다. 이 기종의 연결 전송기가 수신한 신호를 분석해 보면, 특이하게도 대개 항성계 주 항성의 중력 우물에 인접한 시공간 위상 배치도 상의 안정적인 영역에 해당하는 국소 좌표와 밀접하게 연관되어 있음을 알 수 있습니다. \r\n\r\n트리글라비안 기술의 대부분이 그러하듯, 이 장치 역시 시공간의 특이성으로부터 전력을 추출하여 사용하고 있습니다. 3개의 시공간 특이성을 사용하고 있기 때문에 전송기에 필요한 에너지 요구량은 상당할 것이라 볼 수 있습니다. 트리글라비안 침략군이 국소 연결 전송기를 천체 중력 우물을 향하게 해 놓은 목적이 무엇인지는 아직 알려지지 않았습니다.",
"description_ru": "Это сооружение Триглава, предположительно, разработано в качестве канала связи и должно работать так же, как и те, что встречаются в Мёртвой бездне. Однако данные, полученные из этого канала связи, указывают на то, что все эти каналы, как правило, привязаны к локальным координатам, соответствующим устойчивому местоположению в пространственно-временной топологии гравитационного колодца основной звезды в системе. Как и в случае с остальными технологиями Триглава, это устройство черпает энергию из управляемых пространственно-временных сингулярностей. Поскольку для работы канала нужны три такие сингулярности, он требует колоссальных энергозатрат. Пока неизвестно, для чего силы вторжения Триглава создают локальный канал связи с привязкой к звёздному гравитационному колодцу.",
"description_zh": "这个三神裔建筑似乎是用来建立传输导管的,和深渊空间中常见的那种导管类似。不过,这种传输导管的读数显示它连接着时空拓扑图中离星系主恒星的重力井最近的稳定地点的坐标。\n\n\n\n与大多数三神裔科技相同,这种设备的能量来自于时空奇点。鉴于导管使用了三个这种奇点组成的阵列,所需要的能量十分巨大。三神裔入侵舰队建立这样一座连接到星际重力井的本地传输导管的原因目前还未可知。",
"descriptionID": 552054,
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"iconID": 3214,
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@@ -182163,7 +182206,7 @@
"description_fr": "Il s'agit d'un portail stellaire amarr déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Amarr stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたアマースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые амаррские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座艾玛星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571338,
@@ -182233,7 +182276,7 @@
"description_fr": "Il s'agit d'un portail stellaire amarr déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Amarr stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたアマースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые амаррские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座艾玛星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571340,
@@ -182303,7 +182346,7 @@
"description_fr": "Il s'agit d'un portail stellaire amarr déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Amarr stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたアマースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые амаррские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座艾玛星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571342,
@@ -182373,7 +182416,7 @@
"description_fr": "Il s'agit d'un portail stellaire amarr déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Amarr stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたアマースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 아마르 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые амаррские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座艾玛星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571344,
@@ -182443,7 +182486,7 @@
"description_fr": "Il s'agit d'un portail stellaire caldari déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Caldari stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたカルダリスターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые калдарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座加达里星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571346,
@@ -182513,7 +182556,7 @@
"description_fr": "Il s'agit d'un portail stellaire caldari déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Caldari stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたカルダリスターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые калдарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座加达里星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571348,
@@ -182583,7 +182626,7 @@
"description_fr": "Il s'agit d'un portail stellaire caldari déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Caldari stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたカルダリスターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые калдарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座加达里星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571350,
@@ -182653,7 +182696,7 @@
"description_fr": "Il s'agit d'un portail stellaire caldari déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Caldari stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたカルダリスターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 칼다리 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые калдарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座加达里星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571352,
@@ -182723,7 +182766,7 @@
"description_fr": "Il s'agit d'un portail stellaire gallente déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Gallente stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたガレンテスターゲート。接続先だった星系がトリグラビアンコレクティブに操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые галлентские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座盖伦特星门,不过在三神裔的控制下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571354,
@@ -182793,7 +182836,7 @@
"description_fr": "Il s'agit d'un portail stellaire gallente déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Gallente stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたガレンテスターゲート。接続先だった星系がトリグラビアンコレクティブに操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые галлентские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座盖伦特星门,不过在三神裔的控制下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571356,
@@ -182863,7 +182906,7 @@
"description_fr": "Il s'agit d'un portail stellaire gallente déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Gallente stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたガレンテスターゲート。接続先だった星系がトリグラビアンコレクティブに操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые галлентские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座盖伦特星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571358,
@@ -182933,7 +182976,7 @@
"description_fr": "Il s'agit d'un portail stellaire gallente déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Gallente stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたガレンテスターゲート。接続先だった星系がトリグラビアンコレクティブに操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 갈란테 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые галлентские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座盖伦特星门,不过在三神裔的控制下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571360,
@@ -183003,7 +183046,7 @@
"description_fr": "Il s'agit d'un portail stellaire minmatar déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Minmatar stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたミンマタースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые минматарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座米玛塔尔星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571362,
@@ -183073,7 +183116,7 @@
"description_fr": "Il s'agit d'un portail stellaire minmatar déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Minmatar stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたミンマタースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые минматарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座米玛塔尔星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571364,
@@ -183143,7 +183186,7 @@
"description_fr": "Il s'agit d'un portail stellaire minmatar déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Minmatar stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたミンマタースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые минматарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座米玛塔尔星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571366,
@@ -183213,7 +183256,7 @@
"description_fr": "Il s'agit d'un portail stellaire minmatar déconnecté qui a été perturbé par le Collectif Triglavian lorsque ce dernier a manipulé un système stellaire vers sa direction. Le portail désactivé est maintenant un danger pour la navigation et toute tentative de l'utiliser pour un voyage interstellaire sera vouée à l'échec.",
"description_it": "This is a disconnected Minmatar stargate disrupted by the Triglavian Collective's manipulation of the star system to which it once led. The disrupted gate is now a navigation hazard and attempts to use it for interstellar travel will fail.",
"description_ja": "接続が切れたミンマタースターゲート。接続先だった星系がトリグラビアンコレクティブによって操作されたため、現在は不通になっている。接続が切れたゲートは航行の妨げとなっており、惑星間の移動には使用できない。",
- "description_ko": "트라글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
+ "description_ko": "트리글라비안 항성계 교란으로 인해 비활성화된 민마타 스타게이트입니다. 해당 게이트는 위험 지역으로 분류되었으며 더 이상 성간 이동을 지원하지 않습니다.",
"description_ru": "Это отключённые минматарские звёздные врата, выведенные из строя действиями Триглава в системе, в которую они прежде вели. Нестабильные гиперврата представляют собой навигационное препятствие, и любые попытки использовать их для межзвёздного перемещения обречены на провал.",
"description_zh": "这是一座米玛塔尔星门,不过在三神裔的干扰下已经失去了之前曾与其他星系的连接。受干扰的星门现在就像一块拦路石,之前途径此地的星际航线将不再有效。",
"descriptionID": 571368,
@@ -227456,14 +227499,14 @@
"basePrice": 60000000.0,
"capacity": 0.0,
"description_de": "Ein elektronisches Interface, das entwickelt wurde, um den Einsatz der Orca in ihrem Industrie-Modus zu erleichtern. Während sie in dieser Konfiguration eingesetzt wird, wird die Energie aus den Triebwerken der Orca in mächtige Schilde, verbesserte Bergbauvorarbeiterstrahlen und eine deutlich verbesserte Koordination von Bergbaudrohnen umgeleitet. Die Vorteile der Nutzung dieses Moduls zusammen mit ähnlichen Modulen, die sich auf dieselben Attribute auswirken, werden mit sinkenden Erträgen einhergehen. Hinweis: Dieses Modul kann nur in das Industrie-Kommandoschiff Orca eingebaut werden.",
- "description_en-us": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
- "description_es": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_en-us": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_es": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
"description_fr": "Interface électronique conçue pour faciliter le déploiement de l'Orca en configuration industrielle. En configuration industrielle, l'énergie produite par les moteurs de l'Orca est partagée entre son puissant bouclier défensif, le renforcement de ses salves de contremaître d'extraction et l'amélioration de la coordination des drones d'extraction. Les bénéfices de l'utilisation de ce module en complément d'autres modules influant sur les mêmes attributs seront soumis à un rendement décroissant. Remarque : ne peut être équipé que sur les vaisseaux de commandement industriel Orca.",
- "description_it": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_it": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
"description_ja": "オルカを輸送艦として使用するための電子インターフェイス。展開した状態で、オルカのエンジンのエネルギーは驚異的なシールド防御、パワーアップした採掘支援バースト、大幅に強化された採掘専門ドローンに注ぎ込まれる。\n\n\n\nこのモジュールは同属性の効果がある別のモジュールと併用すると、リターン減少の対象となる。\n\n\n\n注:オルカ指揮型輸送艦にのみ装備可能。",
"description_ko": "오르카의 산업 모드 설정을 위한 전자 인터페이스입니다. 모드 활성화 시 엔진에 가용 중인 전력이 실드로 전환되며 채광 버스트 및 채굴 드론의 기능이 향상됩니다.
함선에 동일한 속성의 모듈을 함께 장착할 경우 페널티가 부여됩니다.
참고: 오르카에만 장착할 수 있습니다.",
"description_ru": "Электронный интерфейс, предназначенный для перенаправления мощностей в промышленном корабле типа «Орка». В развёрнутом состоянии энергия двигательной установки направляется на мощнейшие щиты корабля, на усиление импульсных систем координации добычи сырья и на значительное улучшение координации буровых дронов. Установка двух и более модулей, влияющих на одну и ту же характеристику, приведёт к снижению эффективности их действия. Примечание: можно установить только на промышленный флагманский корабль «Орка».",
- "description_zh": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_zh": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
"descriptionID": 581289,
"groupID": 515,
"iconID": 2851,
@@ -227625,14 +227668,14 @@
"basePrice": 156000000.0,
"capacity": 0.0,
"description_de": "Ein elektronisches Interface, das entwickelt wurde, um den Einsatz der Orca in ihrem Industrie-Modus zu erleichtern. Während sie in dieser Konfiguration eingesetzt wird, wird die Energie aus den Triebwerken der Orca in mächtige Schilde, verbesserte Bergbauvorarbeiterstrahlen und eine deutlich verbesserte Koordination von Bergbaudrohnen umgeleitet. Die Vorteile der Nutzung dieses Moduls zusammen mit ähnlichen Modulen, die sich auf dieselben Attribute auswirken, werden mit sinkenden Erträgen einhergehen. Hinweis: Dieses Modul kann nur in das Industrie-Kommandoschiff Orca eingebaut werden.",
- "description_en-us": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
- "description_es": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_en-us": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_es": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
"description_fr": "Interface électronique conçue pour faciliter le déploiement de l'Orca en configuration industrielle. En configuration industrielle, l'énergie produite par les moteurs de l'Orca est partagée entre son puissant bouclier défensif, le renforcement de ses salves de contremaître d'extraction et l'amélioration de la coordination des drones d'extraction. Les bénéfices de l'utilisation de ce module en complément d'autres modules influant sur les mêmes attributs seront soumis à un rendement décroissant. Remarque : ne peut être équipé que sur les vaisseaux de commandement industriel Orca.",
- "description_it": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_it": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
"description_ja": "オルカを輸送艦として使用するための電子インターフェイス。展開した状態で、オルカのエンジンのエネルギーは驚異的なシールド防御、パワーアップした採掘支援バースト、大幅に強化された採掘専門ドローンに注ぎ込まれる。\n\n\n\nこのモジュールは同属性の効果がある別のモジュールと併用すると、リターン減少の対象となる。\n\n\n\n注:オルカ指揮型輸送艦にのみ装備可能。",
"description_ko": "오르카의 산업 모드 설정을 위한 전자 인터페이스입니다. 모드 활성화 시 엔진에 가용 중인 전력이 실드로 전환되며 채광 버스트 및 채굴 드론의 기능이 향상됩니다.
함선에 동일한 속성의 모듈을 함께 장착할 경우 페널티가 부여됩니다.
참고: 오르카에만 장착할 수 있습니다.",
"description_ru": "Электронный интерфейс, предназначенный для перенаправления мощностей в промышленном корабле типа «Орка». В развёрнутом состоянии энергия двигательной установки направляется на мощнейшие щиты корабля, на усиление импульсных систем координации добычи сырья и на значительное улучшение координации буровых дронов. Установка двух и более модулей, влияющих на одну и ту же характеристику, приведёт к снижению эффективности их действия. Примечание: можно установить только на промышленный флагманский корабль «Орка».",
- "description_zh": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
+ "description_zh": "An electronic interface designed to facilitate the deployment of the Orca into its industrial configuration. Whilst in the deployed configuration, energy from the Orca's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Orcas also gain the ability to activate large compressor modules, enabling compression of ice, gas, asteroid ore, moon ore, and Mercoxit ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Orca industrial command ship.",
"descriptionID": 581398,
"groupID": 515,
"iconID": 2851,
@@ -228479,6 +228522,7 @@
"iconID": 3213,
"isDynamicType": 0,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -228512,6 +228556,7 @@
"iconID": 3213,
"isDynamicType": 0,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -228545,6 +228590,7 @@
"iconID": 3213,
"isDynamicType": 0,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -228578,6 +228624,7 @@
"iconID": 3210,
"isDynamicType": 0,
"mass": 1.0,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -228611,6 +228658,7 @@
"iconID": 3210,
"isDynamicType": 0,
"mass": 1.0,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -228644,6 +228692,7 @@
"iconID": 3210,
"isDynamicType": 0,
"mass": 1.0,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -240447,6 +240496,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240481,6 +240531,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240515,6 +240566,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240549,6 +240601,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240583,6 +240636,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240617,6 +240671,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240651,6 +240706,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240685,6 +240741,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240719,6 +240776,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240753,6 +240811,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
@@ -240787,6 +240846,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
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+ "metaLevel": 0,
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+ "metaLevel": 0,
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+ "metaLevel": 3,
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+ "metaLevel": 5,
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+ "metaLevel": 0,
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+ "metaLevel": 3,
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+ "metaLevel": 5,
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+ "metaLevel": 0,
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+ "metaLevel": 3,
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+ "metaLevel": 5,
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+ "metaLevel": 3,
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+ "metaLevel": 0,
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@@ -257540,6 +257612,7 @@
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+ "metaLevel": 3,
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+ "metaLevel": 5,
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@@ -257608,6 +257682,7 @@
"isDynamicType": 0,
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+ "metaLevel": 3,
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+ "metaLevel": 5,
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+ "metaLevel": 0,
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@@ -257710,6 +257787,7 @@
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+ "metaLevel": 3,
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+ "metaLevel": 5,
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"isDynamicType": 0,
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+ "metaLevel": 0,
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"isDynamicType": 0,
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+ "metaLevel": 3,
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@@ -257846,6 +257927,7 @@
"isDynamicType": 0,
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+ "metaLevel": 5,
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@@ -257880,6 +257962,7 @@
"isDynamicType": 0,
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"metaGroupID": 19,
+ "metaLevel": 0,
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@@ -257914,6 +257997,7 @@
"isDynamicType": 0,
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+ "metaLevel": 3,
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@@ -257948,6 +258032,7 @@
"isDynamicType": 0,
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+ "metaLevel": 5,
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@@ -257982,6 +258067,7 @@
"isDynamicType": 0,
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"metaGroupID": 19,
+ "metaLevel": 0,
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"radius": 1.0,
@@ -258016,6 +258102,7 @@
"isDynamicType": 0,
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"metaGroupID": 19,
+ "metaLevel": 3,
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"isDynamicType": 0,
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+ "metaLevel": 5,
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"isDynamicType": 0,
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+ "metaLevel": 0,
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@@ -258118,6 +258207,7 @@
"isDynamicType": 0,
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"metaGroupID": 19,
+ "metaLevel": 3,
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@@ -258152,6 +258242,7 @@
"isDynamicType": 0,
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"metaGroupID": 19,
+ "metaLevel": 5,
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@@ -258186,6 +258277,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
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@@ -258220,6 +258312,7 @@
"isDynamicType": 0,
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"metaGroupID": 19,
+ "metaLevel": 5,
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"radius": 1.0,
@@ -258254,6 +258347,7 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
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"radius": 1.0,
@@ -258288,6 +258382,7 @@
"isDynamicType": 0,
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"metaGroupID": 19,
+ "metaLevel": 3,
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@@ -259587,7 +259682,7 @@
"groupID": 894,
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- "marketGroupID": 1371,
+ "marketGroupID": 2115,
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"metaGroupID": 4,
"metaLevel": 8,
@@ -259630,7 +259725,7 @@
"groupID": 893,
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- "marketGroupID": 1365,
+ "marketGroupID": 2819,
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"metaLevel": 8,
@@ -262125,18 +262220,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61086,
- "typeName_de": "Wightstorm Sunyata Booster I",
+ "typeName_de": "Expired Wightstorm Sunyata Booster I",
"typeName_en-us": "Expired Wightstorm Sunyata Booster I",
"typeName_es": "Expired Wightstorm Sunyata Booster I",
- "typeName_fr": "Booster Sunyata Wightstorm I",
+ "typeName_fr": "Booster Sunyata Wightstorm I expiré",
"typeName_it": "Expired Wightstorm Sunyata Booster I",
- "typeName_ja": "ワイトストーム・サンヤタブースターI",
- "typeName_ko": "와이트스톰 순야타 부스터 I",
- "typeName_ru": "Wightstorm Sunyata Booster I",
+ "typeName_ja": "期限切れワイトストーム・サンヤタブースターI",
+ "typeName_ko": "만료된 와이트스톰 순야타 부스터 I",
+ "typeName_ru": "Expired Wightstorm Sunyata Booster I",
"typeName_zh": "Expired Wightstorm Sunyata Booster I",
"typeNameID": 590612,
"volume": 1.0
@@ -262159,18 +262255,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61087,
- "typeName_de": "Wightstorm Sunyata Booster II",
+ "typeName_de": "Expired Wightstorm Sunyata Booster II",
"typeName_en-us": "Expired Wightstorm Sunyata Booster II",
"typeName_es": "Expired Wightstorm Sunyata Booster II",
- "typeName_fr": "Booster Sunyata Wightstorm II",
+ "typeName_fr": "Booster Sunyata Wightstorm II expiré",
"typeName_it": "Expired Wightstorm Sunyata Booster II",
- "typeName_ja": "ワイトストーム・サンヤタブースターII",
- "typeName_ko": "와이트스톰 순야타 부스터 II",
- "typeName_ru": "Wightstorm Sunyata Booster II",
+ "typeName_ja": "期限切れワイトストーム・サンヤタブースターII",
+ "typeName_ko": "만료된 와이트스톰 순야타 부스터 II",
+ "typeName_ru": "Expired Wightstorm Sunyata Booster II",
"typeName_zh": "Expired Wightstorm Sunyata Booster II",
"typeNameID": 590614,
"volume": 1.0
@@ -262193,18 +262290,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61090,
- "typeName_de": "Wightstorm Sunyata Booster III",
+ "typeName_de": "Expired Wightstorm Sunyata Booster III",
"typeName_en-us": "Expired Wightstorm Sunyata Booster III",
"typeName_es": "Expired Wightstorm Sunyata Booster III",
- "typeName_fr": "Booster Sunyata Wightstorm III",
+ "typeName_fr": "Booster Sunyata Wightstorm III expiré",
"typeName_it": "Expired Wightstorm Sunyata Booster III",
- "typeName_ja": "ワイトストーム・サンヤタブースターIII",
- "typeName_ko": "와이트스톰 순야타 부스터 III",
- "typeName_ru": "Wightstorm Sunyata Booster III",
+ "typeName_ja": "期限切れワイトストーム・サンヤタブースターIII",
+ "typeName_ko": "만료된 와이트스톰 순야타 부스터 III",
+ "typeName_ru": "Expired Wightstorm Sunyata Booster III",
"typeName_zh": "Expired Wightstorm Sunyata Booster III",
"typeNameID": 590619,
"volume": 1.0
@@ -262227,18 +262325,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61091,
- "typeName_de": "Wightstorm Nirvana Booster I",
+ "typeName_de": "Expired Wightstorm Nirvana Booster I",
"typeName_en-us": "Expired Wightstorm Nirvana Booster I",
"typeName_es": "Expired Wightstorm Nirvana Booster I",
- "typeName_fr": "Booster Nirvana Wightstorm I",
+ "typeName_fr": "Booster Nirvana Wightstorm I expiré",
"typeName_it": "Expired Wightstorm Nirvana Booster I",
- "typeName_ja": "ワイトストーム・ニルヴァーナブースターI",
- "typeName_ko": "와이트스톰 니르바나 부스터 I",
- "typeName_ru": "Wightstorm Nirvana Booster I",
+ "typeName_ja": "期限切れワイトストーム・ニルヴァーナブースターI",
+ "typeName_ko": "만료된 와이트스톰 니르바나 부스터 I",
+ "typeName_ru": "Expired Wightstorm Nirvana Booster I",
"typeName_zh": "Expired Wightstorm Nirvana Booster I",
"typeNameID": 590622,
"volume": 1.0
@@ -262261,18 +262360,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61093,
- "typeName_de": "Wightstorm Nirvana Booster II",
+ "typeName_de": "Expired Wightstorm Nirvana Booster II",
"typeName_en-us": "Expired Wightstorm Nirvana Booster II",
"typeName_es": "Expired Wightstorm Nirvana Booster II",
- "typeName_fr": "Booster Nirvana Wightstorm II",
+ "typeName_fr": "Booster Nirvana Wightstorm II expiré",
"typeName_it": "Expired Wightstorm Nirvana Booster II",
- "typeName_ja": "ワイトストーム・ニルヴァーナブースターII",
- "typeName_ko": "와이트스톰 니르바나 부스터 II",
- "typeName_ru": "Wightstorm Nirvana Booster II",
+ "typeName_ja": "期限切れワイトストーム・ニルヴァーナブースターII",
+ "typeName_ko": "만료된 와이트스톰 니르바나 부스터 II",
+ "typeName_ru": "Expired Wightstorm Nirvana Booster II",
"typeName_zh": "Expired Wightstorm Nirvana Booster II",
"typeNameID": 590627,
"volume": 1.0
@@ -262295,18 +262395,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61096,
- "typeName_de": "Wightstorm Nirvana Booster III",
+ "typeName_de": "Expired Wightstorm Nirvana Booster III",
"typeName_en-us": "Expired Wightstorm Nirvana Booster III",
"typeName_es": "Expired Wightstorm Nirvana Booster III",
- "typeName_fr": "Booster Nirvana Wightstorm III",
+ "typeName_fr": "Booster Nirvana Wightstorm III expiré",
"typeName_it": "Expired Wightstorm Nirvana Booster III",
- "typeName_ja": "ワイトストーム・ニルヴァーナブースターIII",
- "typeName_ko": "와이트스톰 니르바나 부스터 III",
- "typeName_ru": "Wightstorm Nirvana Booster III",
+ "typeName_ja": "期限切れワイトストーム・ニルヴァーナブースターIII",
+ "typeName_ko": "만료된 와이트스톰 니르바나 부스터 III",
+ "typeName_ru": "Expired Wightstorm Nirvana Booster III",
"typeName_zh": "Expired Wightstorm Nirvana Booster III",
"typeNameID": 590631,
"volume": 1.0
@@ -262329,18 +262430,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61097,
- "typeName_de": "Wightstorm Rapture Booster I",
+ "typeName_de": "Expired Wightstorm Rapture Booster I",
"typeName_en-us": "Expired Wightstorm Rapture Booster I",
"typeName_es": "Expired Wightstorm Rapture Booster I",
- "typeName_fr": "Booster Rapture Wightstorm I",
+ "typeName_fr": "Booster Rapture Wightstorm I expiré",
"typeName_it": "Expired Wightstorm Rapture Booster I",
- "typeName_ja": "ワイトストーム・ラプチャーブースターI",
- "typeName_ko": "와이트스톰 랩쳐 부스터 I",
- "typeName_ru": "Wightstorm Rapture Booster I",
+ "typeName_ja": "期限切れワイトストーム・ラプチャーブースターI",
+ "typeName_ko": "만료된 와이트스톰 랩쳐 부스터 I",
+ "typeName_ru": "Expired Wightstorm Rapture Booster I",
"typeName_zh": "Expired Wightstorm Rapture Booster I",
"typeNameID": 590635,
"volume": 1.0
@@ -262363,18 +262465,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61099,
- "typeName_de": "Wightstorm Rapture Booster II",
+ "typeName_de": "Expired Wightstorm Rapture Booster II",
"typeName_en-us": "Expired Wightstorm Rapture Booster II",
"typeName_es": "Expired Wightstorm Rapture Booster II",
- "typeName_fr": "Booster Rapture Wightstorm II",
+ "typeName_fr": "Booster Rapture Wightstorm II expiré",
"typeName_it": "Expired Wightstorm Rapture Booster II",
- "typeName_ja": "ワイトストーム・ラプチャーブースターII",
- "typeName_ko": "와이트스톰 랩쳐 부스터 II",
- "typeName_ru": "Wightstorm Rapture Booster II",
+ "typeName_ja": "期限切れワイトストーム・ラプチャーブースターII",
+ "typeName_ko": "만료된 와이트스톰 랩쳐 부스터 II",
+ "typeName_ru": "Expired Wightstorm Rapture Booster II",
"typeName_zh": "Expired Wightstorm Rapture Booster II",
"typeNameID": 590639,
"volume": 1.0
@@ -262397,18 +262500,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61101,
- "typeName_de": "Wightstorm Rapture Booster III",
+ "typeName_de": "Expired Wightstorm Rapture Booster III",
"typeName_en-us": "Expired Wightstorm Rapture Booster III",
"typeName_es": "Expired Wightstorm Rapture Booster III",
- "typeName_fr": "Booster Rapture Wightstorm III",
+ "typeName_fr": "Booster Rapture Wightstorm III expiré",
"typeName_it": "Expired Wightstorm Rapture Booster III",
- "typeName_ja": "ワイトストーム・ラプチャーブースターIII",
- "typeName_ko": "와이트스톰 랩쳐 부스터 III",
- "typeName_ru": "Wightstorm Rapture Booster III",
+ "typeName_ja": "期限切れワイトストーム・ラプチャーブースターIII",
+ "typeName_ko": "만료된 와이트스톰 랩쳐 부스터 III",
+ "typeName_ru": "Expired Wightstorm Rapture Booster III",
"typeName_zh": "Expired Wightstorm Rapture Booster III",
"typeNameID": 590642,
"volume": 1.0
@@ -262431,18 +262535,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61103,
- "typeName_de": "Wightstorm Cetana Booster I",
+ "typeName_de": "Expired Wightstorm Cetana Booster I",
"typeName_en-us": "Expired Wightstorm Cetana Booster I",
"typeName_es": "Expired Wightstorm Cetana Booster I",
- "typeName_fr": "Booster Cetana Wightstorm I",
+ "typeName_fr": "Booster Cetana Wightstorm I expiré",
"typeName_it": "Expired Wightstorm Cetana Booster I",
- "typeName_ja": "ワイトストーム セタナブースターI",
- "typeName_ko": "와이트스톰 세타나 부스터 I",
- "typeName_ru": "Wightstorm Cetana Booster I",
+ "typeName_ja": "期限切れワイトストーム セタナブースターI",
+ "typeName_ko": "만료된 와이트스톰 세타나 부스터 I",
+ "typeName_ru": "Expired Wightstorm Cetana Booster I",
"typeName_zh": "Expired Wightstorm Cetana Booster I",
"typeNameID": 590647,
"volume": 1.0
@@ -262465,18 +262570,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61105,
- "typeName_de": "Wightstorm Cetana Booster II",
+ "typeName_de": "Expired Wightstorm Cetana Booster II",
"typeName_en-us": "Expired Wightstorm Cetana Booster II",
"typeName_es": "Expired Wightstorm Cetana Booster II",
- "typeName_fr": "Booster Cetana Wightstorm II",
+ "typeName_fr": "Booster Cetana Wightstorm II expiré",
"typeName_it": "Expired Wightstorm Cetana Booster II",
- "typeName_ja": "ワイトストーム セタナブースターII",
- "typeName_ko": "와이트스톰 세타나 부스터 II",
- "typeName_ru": "Wightstorm Cetana Booster II",
+ "typeName_ja": "期限切れワイトストーム セタナブースターII",
+ "typeName_ko": "만료된 와이트스톰 세타나 부스터 II",
+ "typeName_ru": "Expired Wightstorm Cetana Booster II",
"typeName_zh": "Expired Wightstorm Cetana Booster II",
"typeNameID": 590650,
"volume": 1.0
@@ -262499,18 +262605,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61107,
- "typeName_de": "Wightstorm Cetana Booster III",
+ "typeName_de": "Expired Wightstorm Cetana Booster III",
"typeName_en-us": "Expired Wightstorm Cetana Booster III",
"typeName_es": "Expired Wightstorm Cetana Booster III",
- "typeName_fr": "Booster Cetana Wightstorm III",
+ "typeName_fr": "Booster Cetana Wightstorm III expiré",
"typeName_it": "Expired Wightstorm Cetana Booster III",
- "typeName_ja": "ワイトストーム セタナブースターIII",
- "typeName_ko": "와이트스톰 세타나 부스터 III",
- "typeName_ru": "Wightstorm Cetana Booster III",
+ "typeName_ja": "期限切れワイトストーム セタナブースターIII",
+ "typeName_ko": "만료된 와이트스톰 세타나 부스터 III",
+ "typeName_ru": "Expired Wightstorm Cetana Booster III",
"typeName_zh": "Expired Wightstorm Cetana Booster III",
"typeNameID": 590655,
"volume": 1.0
@@ -262533,18 +262640,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61110,
- "typeName_de": "Wightstorm Vitarka Booster I",
+ "typeName_de": "Expired Wightstorm Vitarka Booster I",
"typeName_en-us": "Expired Wightstorm Vitarka Booster I",
"typeName_es": "Expired Wightstorm Vitarka Booster I",
- "typeName_fr": "Booster Vitarka Wightstorm I",
+ "typeName_fr": "Booster Vitarka Wightstorm I expiré",
"typeName_it": "Expired Wightstorm Vitarka Booster I",
- "typeName_ja": "ワイトストーム・ビタルカブースターI",
- "typeName_ko": "와이트스톰 비타르카 부스터 I",
- "typeName_ru": "Wightstorm Vitarka Booster I",
+ "typeName_ja": "期限切れワイトストーム・ビタルカブースターI",
+ "typeName_ko": "만료된 와이트스톰 비타르카 부스터 I",
+ "typeName_ru": "Expired Wightstorm Vitarka Booster I",
"typeName_zh": "Expired Wightstorm Vitarka Booster I",
"typeNameID": 590658,
"volume": 1.0
@@ -262567,18 +262675,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61112,
- "typeName_de": "Wightstorm Vitarka Booster II",
+ "typeName_de": "Expired Wightstorm Vitarka Booster II",
"typeName_en-us": "Expired Wightstorm Vitarka Booster II",
"typeName_es": "Expired Wightstorm Vitarka Booster II",
- "typeName_fr": "Booster Vitarka Wightstorm II",
+ "typeName_fr": "Booster Vitarka Wightstorm II expiré",
"typeName_it": "Expired Wightstorm Vitarka Booster II",
- "typeName_ja": "ワイトストーム・ビタルカブースターII",
- "typeName_ko": "와이트스톰 비타르카 부스터 II",
- "typeName_ru": "Wightstorm Vitarka Booster II",
+ "typeName_ja": "期限切れワイトストーム・ビタルカブースターII",
+ "typeName_ko": "만료된 와이트스톰 비타르카 부스터 II",
+ "typeName_ru": "Expired Wightstorm Vitarka Booster II",
"typeName_zh": "Expired Wightstorm Vitarka Booster II",
"typeNameID": 590662,
"volume": 1.0
@@ -262601,18 +262710,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61114,
- "typeName_de": "Wightstorm Vitarka Booster III",
+ "typeName_de": "Expired Wightstorm Vitarka Booster III",
"typeName_en-us": "Expired Wightstorm Vitarka Booster III",
"typeName_es": "Expired Wightstorm Vitarka Booster III",
- "typeName_fr": "Booster Vitarka Wightstorm III",
+ "typeName_fr": "Booster Vitarka Wightstorm III expiré",
"typeName_it": "Expired Wightstorm Vitarka Booster III",
- "typeName_ja": "ワイトストーム・ビタルカブースターIII",
- "typeName_ko": "와이트스톰 비타르카 부스터 III",
- "typeName_ru": "Wightstorm Vitarka Booster III",
+ "typeName_ja": "期限切れワイトストーム・ビタルカブースターIII",
+ "typeName_ko": "만료된 와이트스톰 비타르카 부스터 III",
+ "typeName_ru": "Expired Wightstorm Vitarka Booster III",
"typeName_zh": "Expired Wightstorm Vitarka Booster III",
"typeNameID": 590667,
"volume": 1.0
@@ -262635,18 +262745,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61116,
- "typeName_de": "Wightstorm Manasikara Booster I",
+ "typeName_de": "Expired Wightstorm Manasikara Booster I",
"typeName_en-us": "Expired Wightstorm Manasikara Booster I",
"typeName_es": "Expired Wightstorm Manasikara Booster I",
- "typeName_fr": "Booster Manasikara Wightstorm I",
+ "typeName_fr": "Booster Manasikara Wightstorm I expiré",
"typeName_it": "Expired Wightstorm Manasikara Booster I",
- "typeName_ja": "ワイトストーム・マナシカラブースターI",
- "typeName_ko": "와이트스톰 마나시카라 부스터 I",
- "typeName_ru": "Wightstorm Manasikara Booster I",
+ "typeName_ja": "期限切れワイトストーム・マナシカラブースターI",
+ "typeName_ko": "만료된 와이트스톰 마나시카라 부스터 I",
+ "typeName_ru": "Expired Wightstorm Manasikara Booster I",
"typeName_zh": "Expired Wightstorm Manasikara Booster I",
"typeNameID": 590671,
"volume": 1.0
@@ -262669,18 +262780,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61118,
- "typeName_de": "Wightstorm Manasikara Booster II",
+ "typeName_de": "Expired Wightstorm Manasikara Booster II",
"typeName_en-us": "Expired Wightstorm Manasikara Booster II",
"typeName_es": "Expired Wightstorm Manasikara Booster II",
- "typeName_fr": "Booster Manasikara Wightstorm II",
+ "typeName_fr": "Booster Manasikara Wightstorm II expiré",
"typeName_it": "Expired Wightstorm Manasikara Booster II",
- "typeName_ja": "ワイトストーム・マナシカラブースターII",
- "typeName_ko": "와이트스톰 마나시카라 부스터 II",
- "typeName_ru": "Wightstorm Manasikara Booster II",
+ "typeName_ja": "期限切れワイトストーム・マナシカラブースターII",
+ "typeName_ko": "만료된 와이트스톰 마나시카라 부스터 II",
+ "typeName_ru": "Expired Wightstorm Manasikara Booster II",
"typeName_zh": "Expired Wightstorm Manasikara Booster II",
"typeNameID": 590675,
"volume": 1.0
@@ -262703,18 +262815,19 @@
"isDynamicType": 0,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 0,
"radius": 1.0,
"typeID": 61119,
- "typeName_de": "Wightstorm Manasikara Booster III",
+ "typeName_de": "Expired Wightstorm Manasikara Booster III",
"typeName_en-us": "Expired Wightstorm Manasikara Booster III",
"typeName_es": "Expired Wightstorm Manasikara Booster III",
- "typeName_fr": "Booster Manasikara Wightstorm III",
+ "typeName_fr": "Booster Manasikara Wightstorm III expiré",
"typeName_it": "Expired Wightstorm Manasikara Booster III",
- "typeName_ja": "ワイトストーム・マナシカラブースターIII",
- "typeName_ko": "와이트스톰 마나시카라 부스터 III",
- "typeName_ru": "Wightstorm Manasikara Booster III",
+ "typeName_ja": "期限切れワイトストーム・マナシカラブースターIII",
+ "typeName_ko": "만료된 와이트스톰 마나시카라 부스터 III",
+ "typeName_ru": "Expired Wightstorm Manasikara Booster III",
"typeName_zh": "Expired Wightstorm Manasikara Booster III",
"typeNameID": 590679,
"volume": 1.0
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"published": 1,
"radius": 1.0,
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"mass": 0.0,
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+ "metaLevel": 3,
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"published": 1,
"radius": 1.0,
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"marketGroupID": 2531,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
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"published": 1,
"radius": 1.0,
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"mass": 0.0,
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+ "metaLevel": 0,
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"marketGroupID": 2790,
"mass": 0.0,
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+ "metaLevel": 3,
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"published": 1,
"radius": 1.0,
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"marketGroupID": 2790,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
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"radius": 1.0,
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"marketGroupID": 2791,
"mass": 0.0,
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+ "metaLevel": 0,
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+ "metaLevel": 3,
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+ "metaLevel": 5,
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"marketGroupID": 2790,
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"marketGroupID": 2790,
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+ "metaLevel": 5,
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- "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_es": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_it": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_zh": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
+ "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. \r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_es": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_it": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_zh": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
+ "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_it": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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- "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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+ "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_zh": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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+ "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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- "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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+ "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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- "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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+ "description_de": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_fr": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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- "description_ko": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
- "description_ru": "Mykoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. The crystals are commonly used in electronics and weapon manufacturing, as well as the creation of legalized Synth booster variants. Mykoserocin can only be found in abundance in a few areas, such as interstellar gas clouds within high security space. ( copy )",
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+ "description_es": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_zh": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_fr": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. ( copy )",
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+ "description_de": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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+ "description_es": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_ko": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. ( copy )",
- "description_ru": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. ( copy )",
- "description_zh": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space. ( copy )",
+ "description_de": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Cytoserocin is a crystalline compound formed by intense pressure deep within large asteroids and moons. It is used in electronics and weapon manufacturing, as well as the production of high-grade combat boosters. Cytoserocin can only be found in a few areas, such as interstellar gas clouds out in low security and 0.0 space.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
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- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems. \r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594672,
"graphicID": 3224,
"groupID": 4168,
@@ -271848,15 +271988,15 @@
"62406": {
"basePrice": 0.0,
"capacity": 0.0,
- "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
- "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas. ( copy )",
+ "description_de": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Fullerite is the solid-state manifestation of fullerene molecules and can be found naturally occurring within interstellar gas clouds. Fullerites are coveted for the unique structural properties that make them some of the most useful materials known to humankind. Fullerene-based technology has applications in electronics, propulsion and engineering as well as the construction of ultra-hard metal alloys and heat-resistant weapons systems.\r\n\r\nAlthough all of the empires have developed a rudimentary understanding of how to manipulate fullerene, only the Jovians are known to have mastered the science. This has allowed them to maintain a significant technological advantage over other races in many crucial areas.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594674,
"graphicID": 3224,
"groupID": 4168,
@@ -272226,14 +272366,14 @@
"basePrice": 300000000.0,
"capacity": 0.0,
"description_de": "Dieser Skill zur Flottenunterstützung erhöht die Reichweite, in der Flottenmitglieder die Fernkompressionsdienste, die von einem Schiff mit Industriekern und Kompressortechnologie angeboten werden, nutzen können. Mit jeder Stufe erhöht sich die vom Industriekern-Schiff ausgehende Reichweite, in der andere Flottenmitglieder die Fernkompressionsdienste nutzen können, um 10 %. Dieser Skill ist für den Einsatz durch Piloten gedacht, die Industriekern- und Kompressormodule betreiben.",
- "description_en-us": "This fleet support skill increases the range at which fleet members can use remote compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which remote compression can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
- "description_es": "This fleet support skill increases the range at which fleet members can use remote compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which remote compression can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
+ "description_en-us": "This fleet support skill increases the range at which fleet members can use fleet compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which fleet compression services can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
+ "description_es": "This fleet support skill increases the range at which fleet members can use fleet compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which fleet compression services can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
"description_fr": "Cette compétence de soutien de flotte accroît la distance à laquelle les membres de la flotte peuvent utiliser les services de compression à distance proposés par un vaisseau disposant d'une cellule industrielle et de la technologie de compression. Chaque niveau augmente de 10 % la distance du vaisseau équipé de la cellule industrielle à laquelle la compression à distance peut être utilisée par les autres membres de la flotte. Cette compétence est destinée à être utilisée par les pilotes ayant recours à des modules de cellule industrielle et de compression.",
- "description_it": "This fleet support skill increases the range at which fleet members can use remote compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which remote compression can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
+ "description_it": "This fleet support skill increases the range at which fleet members can use fleet compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which fleet compression services can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
"description_ja": "このフリートサポートスキルには、インダストリアルコアと圧縮技術を運用している艦船によって提供される遠隔圧縮サービスをフリートメンバーが利用できる範囲を拡大する効果がある。レベルが1上がる毎に、他のフリートメンバーがインダストリアル搭載艦から離れて遠隔圧縮を行うことができる範囲が10%増加する。\n\nこのスキルは、インダストリアルコアと圧縮モジュールを運用するパイロットによる使用が想定されている。",
"description_ko": "함대원들이 인더스트리얼 코어 및 압축 기술을 사용하는 함선에 접속할 수 있는 최대 거리에 영향을 줍니다. 매 스킬 레벨마다 함대원들이 원격 압축을 지원하는 함선에 접속할 수 있는 최대 거리가 10% 증가합니다.
해당 스킬은 인더스트리얼 코어 및 압축 모듈을 사용하는 파일럿에게만 영향을 줍니다.",
"description_ru": "Этот навык поддержки флота позволяет его членам проводить дистанционное сжатие на большем расстоянии от использующего компрессорную технологию корабля с промышленным ядром. Каждая степень освоения навыка на 10% увеличивает расстояние от корабля с промышленным ядром, в пределах которого другие члены флота могут использовать дистанционное сжатие. Этот навык предназначен для пилотов, использующих промышленные ядра и компрессоры.",
- "description_zh": "This fleet support skill increases the range at which fleet members can use remote compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which remote compression can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
+ "description_zh": "This fleet support skill increases the range at which fleet members can use fleet compression services offered by a ship operating an industrial core and compressor technology. Each level increases by 10% the range from the industrial core ship within which fleet compression services can be used by other fleet members.\r\n\r\nThis skill is intended for use by pilots operating industrial core and compressor modules.",
"descriptionID": 594785,
"groupID": 258,
"iconID": 33,
@@ -272259,15 +272399,15 @@
"62454": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "",
- "description_en-us": "",
- "description_es": "",
- "description_fr": "",
- "description_it": "",
- "description_ja": "",
- "description_ko": "",
- "description_ru": "",
- "description_zh": "",
+ "description_de": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594787,
"groupID": 1884,
"iconID": 25174,
@@ -272293,15 +272433,15 @@
"62455": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594789,
"groupID": 1884,
"iconID": 25174,
@@ -272327,15 +272467,15 @@
"62456": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594791,
"groupID": 1884,
"iconID": 25179,
@@ -272361,15 +272501,15 @@
"62457": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_en-us": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_es": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_fr": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_it": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ja": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ko": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ru": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_zh": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . ( copy )",
+ "description_de": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594793,
"groupID": 1884,
"iconID": 25174,
@@ -272395,15 +272535,15 @@
"62458": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594795,
"groupID": 1884,
"iconID": 25174,
@@ -272429,15 +272569,15 @@
"62459": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594797,
"groupID": 1884,
"iconID": 25179,
@@ -272463,15 +272603,15 @@
"62460": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_en-us": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_es": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_fr": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_it": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ja": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ko": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ru": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
- "description_zh": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . ( copy )",
+ "description_de": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594801,
"groupID": 1884,
"iconID": 25174,
@@ -272497,15 +272637,15 @@
"62461": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594803,
"groupID": 1884,
"iconID": 25174,
@@ -272565,15 +272705,15 @@
"62463": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_en-us": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_es": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_fr": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_it": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ja": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ko": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_ru": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
- "description_zh": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . ( copy )",
+ "description_de": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594804,
"groupID": 1884,
"iconID": 25174,
@@ -272599,15 +272739,15 @@
"62464": {
"basePrice": 1500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594808,
"groupID": 1884,
"iconID": 25174,
@@ -272633,15 +272773,15 @@
"62466": {
"basePrice": 3000.0,
"capacity": 0.0,
- "description_de": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594811,
"groupID": 1884,
"iconID": 25179,
@@ -272667,15 +272807,15 @@
"62467": {
"basePrice": 3000.0,
"capacity": 0.0,
- "description_de": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_en-us": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_es": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_fr": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_it": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ja": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ko": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_ru": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
- "description_zh": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. ( copy )",
+ "description_de": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594813,
"groupID": 1884,
"iconID": 25179,
@@ -272701,15 +272841,15 @@
"62468": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_en-us": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_es": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_fr": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_it": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ja": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ko": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ru": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_zh": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
+ "description_de": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594816,
"groupID": 1920,
"iconID": 25175,
@@ -272735,15 +272875,15 @@
"62469": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594818,
"groupID": 1920,
"iconID": 25175,
@@ -272769,15 +272909,15 @@
"62470": {
"basePrice": 4000.0,
"capacity": 0.0,
- "description_de": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_en-us": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_es": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_fr": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_it": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ja": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ko": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_ru": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
- "description_zh": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. ( copy )",
+ "description_de": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594820,
"groupID": 1920,
"iconID": 25180,
@@ -272803,15 +272943,15 @@
"62471": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_en-us": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_es": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_fr": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_it": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ja": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ko": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ru": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_zh": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
+ "description_de": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594822,
"groupID": 1920,
"iconID": 25175,
@@ -272837,15 +272977,15 @@
"62472": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594824,
"groupID": 1920,
"iconID": 25175,
@@ -272871,15 +273011,15 @@
"62473": {
"basePrice": 4000.0,
"capacity": 0.0,
- "description_de": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_en-us": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_es": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_fr": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_it": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ja": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ko": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_ru": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
- "description_zh": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. ( copy )",
+ "description_de": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594826,
"groupID": 1920,
"iconID": 25180,
@@ -272905,15 +273045,15 @@
"62474": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_en-us": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_es": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_fr": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_it": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ja": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ko": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ru": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_zh": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
+ "description_de": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594828,
"groupID": 1920,
"iconID": 25175,
@@ -272939,15 +273079,15 @@
"62475": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594830,
"groupID": 1920,
"iconID": 25175,
@@ -272973,15 +273113,15 @@
"62476": {
"basePrice": 4000.0,
"capacity": 0.0,
- "description_de": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_en-us": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_es": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_fr": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_it": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ja": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ko": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_ru": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
- "description_zh": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. ( copy )",
+ "description_de": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594832,
"groupID": 1920,
"iconID": 25180,
@@ -273007,15 +273147,15 @@
"62477": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_en-us": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_es": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_fr": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_it": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ja": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ko": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ru": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_zh": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
+ "description_de": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594834,
"groupID": 1920,
"iconID": 25175,
@@ -273041,15 +273181,15 @@
"62478": {
"basePrice": 2000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594836,
"groupID": 1920,
"iconID": 25175,
@@ -273075,15 +273215,15 @@
"62479": {
"basePrice": 4000.0,
"capacity": 0.0,
- "description_de": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_en-us": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_es": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_fr": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_it": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ja": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ko": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_ru": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
- "description_zh": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. ( copy )",
+ "description_de": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times.\r\n\r\nA common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594838,
"groupID": 1920,
"iconID": 25180,
@@ -273109,15 +273249,15 @@
"62480": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_en-us": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_es": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_fr": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_it": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ja": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ko": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ru": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_zh": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
+ "description_de": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594840,
"groupID": 1921,
"iconID": 25176,
@@ -273143,15 +273283,15 @@
"62481": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594842,
"groupID": 1921,
"iconID": 25176,
@@ -273177,15 +273317,15 @@
"62482": {
"basePrice": 7000.0,
"capacity": 0.0,
- "description_de": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_en-us": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_es": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_fr": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_it": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ja": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ko": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_ru": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
- "description_zh": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. ( copy )",
+ "description_de": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594844,
"groupID": 1921,
"iconID": 25181,
@@ -273211,15 +273351,15 @@
"62483": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_en-us": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_es": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_fr": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_it": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ja": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ko": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ru": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_zh": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
+ "description_de": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594846,
"groupID": 1921,
"iconID": 25176,
@@ -273245,15 +273385,15 @@
"62484": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594848,
"groupID": 1921,
"iconID": 25176,
@@ -273279,15 +273419,15 @@
"62485": {
"basePrice": 7000.0,
"capacity": 0.0,
- "description_de": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_en-us": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_es": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_fr": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_it": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ja": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ko": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_ru": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
- "description_zh": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. ( copy )",
+ "description_de": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594850,
"groupID": 1921,
"iconID": 25181,
@@ -273313,15 +273453,15 @@
"62486": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_en-us": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_es": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_fr": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_it": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ja": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ko": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ru": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_zh": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
+ "description_de": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594852,
"groupID": 1921,
"iconID": 25176,
@@ -273347,15 +273487,15 @@
"62487": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594854,
"groupID": 1921,
"iconID": 25176,
@@ -273381,15 +273521,15 @@
"62488": {
"basePrice": 7000.0,
"capacity": 0.0,
- "description_de": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_en-us": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_es": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_fr": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_it": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ja": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ko": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_ru": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
- "description_zh": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. ( copy )",
+ "description_de": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594856,
"groupID": 1921,
"iconID": 25181,
@@ -273415,15 +273555,15 @@
"62489": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_en-us": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_es": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_fr": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_it": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ja": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ko": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ru": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_zh": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
+ "description_de": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594858,
"groupID": 1921,
"iconID": 25176,
@@ -273449,15 +273589,15 @@
"62490": {
"basePrice": 3500.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594860,
"groupID": 1921,
"iconID": 25176,
@@ -273483,15 +273623,15 @@
"62491": {
"basePrice": 7000.0,
"capacity": 0.0,
- "description_de": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_en-us": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_es": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_fr": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_it": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ja": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ko": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_ru": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
- "description_zh": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. ( copy )",
+ "description_de": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594862,
"groupID": 1921,
"iconID": 25181,
@@ -273517,15 +273657,15 @@
"62492": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_en-us": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_es": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_fr": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_it": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ja": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ko": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ru": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_zh": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
+ "description_de": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594864,
"groupID": 1922,
"iconID": 25177,
@@ -273551,15 +273691,15 @@
"62493": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594866,
"groupID": 1922,
"iconID": 25177,
@@ -273585,15 +273725,15 @@
"62494": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_en-us": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_es": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_fr": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_it": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ja": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ko": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_ru": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
- "description_zh": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. ( copy )",
+ "description_de": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594868,
"groupID": 1922,
"iconID": 25182,
@@ -273619,15 +273759,15 @@
"62495": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_en-us": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_es": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_fr": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_it": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ja": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ko": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ru": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_zh": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
+ "description_de": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594870,
"groupID": 1922,
"iconID": 25177,
@@ -273653,15 +273793,15 @@
"62496": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594872,
"groupID": 1922,
"iconID": 25177,
@@ -273687,15 +273827,15 @@
"62497": {
"basePrice": 12000.0,
"capacity": 0.0,
- "description_de": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_en-us": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_es": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_fr": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_it": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ja": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ko": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_ru": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
- "description_zh": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. ( copy )",
+ "description_de": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594874,
"groupID": 1922,
"iconID": 25182,
@@ -273721,15 +273861,15 @@
"62498": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_en-us": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_es": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_fr": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_it": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ja": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ko": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ru": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_zh": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
+ "description_de": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594876,
"groupID": 1922,
"iconID": 25177,
@@ -273755,15 +273895,15 @@
"62499": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594878,
"groupID": 1922,
"iconID": 25177,
@@ -273789,15 +273929,15 @@
"62500": {
"basePrice": 12000.0,
"capacity": 0.0,
- "description_de": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_en-us": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_es": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_fr": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_it": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ja": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ko": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_ru": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
- "description_zh": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. ( copy )",
+ "description_de": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594880,
"groupID": 1922,
"iconID": 25182,
@@ -273823,15 +273963,15 @@
"62501": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_en-us": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_es": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_fr": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_it": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ja": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ko": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ru": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_zh": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
+ "description_de": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594882,
"groupID": 1922,
"iconID": 25177,
@@ -273857,15 +273997,15 @@
"62502": {
"basePrice": 6000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594884,
"groupID": 1922,
"iconID": 25177,
@@ -273891,15 +274031,15 @@
"62503": {
"basePrice": 12000.0,
"capacity": 0.0,
- "description_de": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_en-us": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_es": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_fr": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_it": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ja": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ko": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_ru": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
- "description_zh": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. ( copy )",
+ "description_de": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nA rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594887,
"groupID": 1922,
"iconID": 25182,
@@ -273925,15 +274065,15 @@
"62504": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_en-us": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_es": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_fr": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_it": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ja": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ko": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ru": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_zh": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
+ "description_de": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594890,
"groupID": 1923,
"iconID": 25178,
@@ -273959,15 +274099,15 @@
"62505": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594892,
"groupID": 1923,
"iconID": 25178,
@@ -273993,15 +274133,15 @@
"62506": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_en-us": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_es": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_fr": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_it": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ja": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ko": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_ru": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
- "description_zh": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. ( copy )",
+ "description_de": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594894,
"groupID": 1923,
"iconID": 25183,
@@ -274027,15 +274167,15 @@
"62507": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_en-us": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_es": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_fr": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_it": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ja": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ko": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ru": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_zh": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
+ "description_de": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594896,
"groupID": 1923,
"iconID": 25178,
@@ -274061,15 +274201,15 @@
"62508": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594898,
"groupID": 1923,
"iconID": 25178,
@@ -274095,15 +274235,15 @@
"62509": {
"basePrice": 20000.0,
"capacity": 0.0,
- "description_de": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_en-us": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_es": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_fr": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_it": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ja": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ko": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_ru": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
- "description_zh": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. ( copy )",
+ "description_de": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594900,
"groupID": 1923,
"iconID": 25183,
@@ -274129,15 +274269,15 @@
"62510": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_en-us": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_es": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_fr": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_it": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ja": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ko": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ru": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_zh": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
+ "description_de": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594902,
"groupID": 1923,
"iconID": 25178,
@@ -274163,15 +274303,15 @@
"62511": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594904,
"groupID": 1923,
"iconID": 25178,
@@ -274197,15 +274337,15 @@
"62512": {
"basePrice": 20000.0,
"capacity": 0.0,
- "description_de": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_en-us": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_es": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_fr": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_it": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ja": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ko": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_ru": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
- "description_zh": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. ( copy )",
+ "description_de": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594906,
"groupID": 1923,
"iconID": 25183,
@@ -274231,15 +274371,15 @@
"62513": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_en-us": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_es": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_fr": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_it": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ja": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ko": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ru": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_zh": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
+ "description_de": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594908,
"groupID": 1923,
"iconID": 25178,
@@ -274265,15 +274405,15 @@
"62514": {
"basePrice": 10000.0,
"capacity": 0.0,
- "description_de": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_es": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_fr": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_it": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ja": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ko": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ru": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_zh": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
+ "description_de": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594910,
"groupID": 1923,
"iconID": 25178,
@@ -274299,15 +274439,15 @@
"62515": {
"basePrice": 20000.0,
"capacity": 0.0,
- "description_de": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_en-us": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_es": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_fr": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_it": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ja": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ko": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_ru": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
- "description_zh": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. ( copy )",
+ "description_de": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material.\r\n\r\nAn exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594912,
"groupID": 1923,
"iconID": 25183,
@@ -274333,15 +274473,15 @@
"62516": {
"basePrice": 50000.0,
"capacity": 0.0,
- "description_de": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Veldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594915,
"groupID": 462,
"iconID": 3319,
@@ -274366,15 +274506,15 @@
"62517": {
"basePrice": 52500.0,
"capacity": 0.0,
- "description_de": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Clusters of veldspar with 5% higher yield, called concentrated veldspar, are sometimes found in areas where normal veldspar is already in abundance.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594917,
"groupID": 462,
"iconID": 3319,
@@ -274400,15 +274540,15 @@
"62518": {
"basePrice": 55000.0,
"capacity": 0.0,
- "description_de": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "In asteroids above average size, the intense pressure can weld normal veldspar into what is known as dense veldspar, increasing the yield by 10%. \r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594919,
"groupID": 462,
"iconID": 3319,
@@ -274433,15 +274573,15 @@
"62519": {
"basePrice": 1860.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of veldspar ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard veldspar when reprocessed.\r\n\r\nVeldspar is the most common ore type in the central regions of known universe. It is still in constant demand as it holds a large portion of the much-used Tritanium mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594921,
"groupID": 462,
"iconID": 3319,
@@ -274467,15 +274607,15 @@
"62520": {
"basePrice": 124850.0,
"capacity": 0.0,
- "description_de": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Scordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594923,
"groupID": 460,
"iconID": 3317,
@@ -274500,15 +274640,15 @@
"62521": {
"basePrice": 131150.0,
"capacity": 0.0,
- "description_de": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Condensed Scordite is a close cousin of normal Scordite, but with 5% better yield. The increase may seem insignificant, but matters greatly to new miners where every ISK counts.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594925,
"groupID": 460,
"iconID": 3317,
@@ -274533,15 +274673,15 @@
"62522": {
"basePrice": 137400.0,
"capacity": 0.0,
- "description_de": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Massive Scordite was the stuff of legend in the early days of space exploration, due to a 10% higher mineral yield than standard scordite. Though it has long since been taken over in value by other ores it still has a special place in the hearts of veteran miners.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594927,
"groupID": 460,
"iconID": 3317,
@@ -274567,15 +274707,15 @@
"62523": {
"basePrice": 2500.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of scordite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard scordite when reprocessed.\r\n\r\nScordite is amongst the most common ore types in the central regions of known universe. It has a fair bit of Tritanium and Pyerite. Good choice for those starting their mining careers.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594929,
"groupID": 460,
"iconID": 3317,
@@ -274601,15 +274741,15 @@
"62524": {
"basePrice": 290800.0,
"capacity": 0.0,
- "description_de": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Pyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594932,
"groupID": 459,
"iconID": 3318,
@@ -274634,15 +274774,15 @@
"62525": {
"basePrice": 311100.0,
"capacity": 0.0,
- "description_de": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Solid Pyroxeres, sometimes called the Flame of Dam'Torsad, is a relative of normal Pyroxeres. The Flame has 5% higher yield than its more common cousin. \r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594934,
"groupID": 459,
"iconID": 3318,
@@ -274667,15 +274807,15 @@
"62526": {
"basePrice": 318600.0,
"capacity": 0.0,
- "description_de": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Viscous Pyroxeres is the secret behind the success of ORE in the early days. ORE has since then moved into more profitable minerals, but Viscous Pyroxeres and its 10% higher mineral yield still holds a special place in the hearts of all miners dreaming of becoming the next mining moguls of EVE.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594936,
"groupID": 459,
"iconID": 3318,
@@ -274701,15 +274841,15 @@
"62527": {
"basePrice": 6100.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of pyroxeres ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard pyroxeres when reprocessed.\r\n\r\nPyroxeres is a common ore available in all regions of space. It has fair amounts of Pyerite and Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594939,
"groupID": 459,
"iconID": 3318,
@@ -274735,15 +274875,15 @@
"62528": {
"basePrice": 320000.0,
"capacity": 0.0,
- "description_de": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Plagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594942,
"groupID": 458,
"iconID": 3320,
@@ -274768,15 +274908,15 @@
"62529": {
"basePrice": 336250.0,
"capacity": 0.0,
- "description_de": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Azure plagioclase is an uncommon variant of plagioclase that enjoys a 5% improved mineral yield. It was made infamous in the melancholic song prose Miner Blues by the Gallentean folk singer Jaroud Dertier three decades ago.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594944,
"groupID": 458,
"iconID": 3320,
@@ -274802,15 +274942,15 @@
"62530": {
"basePrice": 352300.0,
"capacity": 0.0,
- "description_de": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "With rich plagioclase, having 10% better yield than the normal one, miners can finally regard plagioclase as a mineral that provides a noteworthy profit.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594946,
"groupID": 458,
"iconID": 3320,
@@ -274835,15 +274975,15 @@
"62531": {
"basePrice": 7750.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of plagioclase ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard plagioclase when reprocessed.\r\n\r\nPlagioclase is not amongst the most valuable ore types around, but it contains a large amount of Tritanium and is thus always in constant demand. It also yields some Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594948,
"groupID": 458,
"iconID": 3320,
@@ -274869,15 +275009,15 @@
"62532": {
"basePrice": 613410.0,
"capacity": 0.0,
- "description_de": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Omber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594950,
"groupID": 469,
"iconID": 3315,
@@ -274902,15 +275042,15 @@
"62533": {
"basePrice": 643380.0,
"capacity": 0.0,
- "description_de": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Silvery Omber was first discovered some fifty years ago in an asteroid belt close to a large moon. The luminescence from the moon made this uncommon cousin of normal Omber seem silvery in appearance, hence the name. It is still considered a lucky find by miners across New Eden due to a roughly 5% improved mineral yield compared to standard omber.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594952,
"groupID": 469,
"iconID": 3315,
@@ -274936,15 +275076,15 @@
"62534": {
"basePrice": 675300.0,
"capacity": 0.0,
- "description_de": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Golden Omber spurred one of the largest gold rushes in the early days of space faring, when isogen was the king of minerals. The 10% extra yield it offers over common Omber was all it took to make it the most sought after ore for a few years.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594954,
"groupID": 469,
"iconID": 3315,
@@ -274969,15 +275109,15 @@
"62535": {
"basePrice": 11000.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of omber ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard omber when reprocessed.\r\n\r\nOmber is a common ore that is still an excellent ore for novice miners as it has a sizeable portion of Isogen, as well as some Pyerite. A few trips of mining this and a novice is quick to rise in status.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594956,
"groupID": 469,
"iconID": 3315,
@@ -275003,15 +275143,15 @@
"62536": {
"basePrice": 1123740.0,
"capacity": 0.0,
- "description_de": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Kernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594958,
"groupID": 457,
"iconID": 3314,
@@ -275036,15 +275176,15 @@
"62537": {
"basePrice": 1179510.0,
"capacity": 0.0,
- "description_de": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Prophets tell of the mystical nature endowed in luminous kernite. To the rest of us, it's an average looking ore that has 5% more yield than normal kernite and can make you rich if you mine it 24/7 and live to be very old.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594960,
"groupID": 457,
"iconID": 3314,
@@ -275069,15 +275209,15 @@
"62538": {
"basePrice": 1236750.0,
"capacity": 0.0,
- "description_de": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Known as Rage Stone to veteran miners after a discovery of a particularly rich vein of it caused a bar brawl of epic proportions in the Intaki Syndicate. It has a 10% higher yield than basic kernite.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594962,
"groupID": 457,
"iconID": 3314,
@@ -275102,15 +275242,15 @@
"62539": {
"basePrice": 34200.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of kernite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard kernite when reprocessed.\r\n\r\nKernite is a fairly common ore type that yields fair amounts of Mexallon and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594964,
"groupID": 457,
"iconID": 3314,
@@ -275136,15 +275276,15 @@
"62540": {
"basePrice": 2522370.0,
"capacity": 0.0,
- "description_de": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Jaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594966,
"groupID": 456,
"iconID": 3313,
@@ -275170,15 +275310,15 @@
"62541": {
"basePrice": 2636640.0,
"capacity": 0.0,
- "description_de": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Pure Jaspet is popular amongst corporate miners who are looking for various minerals for manufacturing, rather than mining purely for profit. Pure Jaspet contains fewer waste compounds than most asteroids, allows for approximately 5% better mineral yield from the same volume of ore.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594968,
"groupID": 456,
"iconID": 3313,
@@ -275205,15 +275345,15 @@
"62542": {
"basePrice": 2781630.0,
"capacity": 0.0,
- "description_de": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Pristine Jaspet is very rare, which is not so surprising when one considers that it is formed when asteroids collide with comets or ice moons. It has 10% better yield than normal Jaspet.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594970,
"groupID": 456,
"iconID": 3313,
@@ -275239,15 +275379,15 @@
"62543": {
"basePrice": 48300.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of jaspet ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard jaspet when reprocessed.\r\n\r\nJaspet has two valuable mineral types, making it easy to sell. It has a large portion of Mexallon plus some Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594972,
"groupID": 456,
"iconID": 3313,
@@ -275274,15 +275414,15 @@
"62544": {
"basePrice": 3019920.0,
"capacity": 0.0,
- "description_de": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "With a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594974,
"groupID": 455,
"iconID": 3312,
@@ -275308,15 +275448,15 @@
"62545": {
"basePrice": 3162220.0,
"capacity": 0.0,
- "description_de": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Vivid hemorphite has 5% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594976,
"groupID": 455,
"iconID": 3312,
@@ -275342,15 +275482,15 @@
"62546": {
"basePrice": 3323700.0,
"capacity": 0.0,
- "description_de": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Hemorphite exists in many different color variations. Interestingly, the more colorful it becomes, the better yield it has. Radiant hemorphite has 10% better yield than its more bland brother.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594978,
"groupID": 455,
"iconID": 3312,
@@ -275376,15 +275516,15 @@
"62547": {
"basePrice": 122000.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of hemorphite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hemorphite when reprocessed.\r\n\r\nWith a large portion of Nocxium, hemorphite is always a good find. It is common enough that even novice miners can expect to run into it. Hemorphite also has some amount of Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594980,
"groupID": 455,
"iconID": 3312,
@@ -275411,15 +275551,15 @@
"62548": {
"basePrice": 3374080.0,
"capacity": 0.0,
- "description_de": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Hedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594982,
"groupID": 454,
"iconID": 3311,
@@ -275445,15 +275585,15 @@
"62549": {
"basePrice": 3552000.0,
"capacity": 0.0,
- "description_de": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "When asteroids containing hedbergite pass close to suns or other sources of intense heat can cause the hedbergite to glassify. The result is called vitric hedbergite and has 5% better yield than normal hedbergite. \r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594984,
"groupID": 454,
"iconID": 3311,
@@ -275479,15 +275619,15 @@
"62550": {
"basePrice": 3705600.0,
"capacity": 0.0,
- "description_de": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Asteroids containing this shiny ore were formed in intense heat, such as might result from a supernova. The result, known as glazed hedbergite, is a more concentrated form of hedbergite that has 10% higher yield.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594986,
"groupID": 454,
"iconID": 3311,
@@ -275513,15 +275653,15 @@
"62551": {
"basePrice": 56000.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of hedbergite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard hedbergite when reprocessed.\r\n\r\nHedbergite is sought after for its high concentration of Pyerite and Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594988,
"groupID": 454,
"iconID": 3311,
@@ -275548,15 +275688,15 @@
"62552": {
"basePrice": 3999260.0,
"capacity": 0.0,
- "description_de": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Gneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594990,
"groupID": 467,
"iconID": 3321,
@@ -275583,15 +275723,15 @@
"62553": {
"basePrice": 4208400.0,
"capacity": 0.0,
- "description_de": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Gneiss is often the first major league ore that up and coming miners graduate to. Finding the more expensive variation of Gneiss, called Iridescent Gneiss, is a major coup for these miners due to its 5% greater mineral yield.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594992,
"groupID": 467,
"iconID": 3321,
@@ -275618,15 +275758,15 @@
"62554": {
"basePrice": 4396720.0,
"capacity": 0.0,
- "description_de": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Prismatic Gneiss has a fracturized molecule-structure, which explains its unique appearance. It is the most sought after member of the Gneiss family, as it yields 10% more than common Gneiss.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594994,
"groupID": 467,
"iconID": 3321,
@@ -275652,15 +275792,15 @@
"62555": {
"basePrice": 157500.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of gneiss ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard gneiss when reprocessed.\r\n\r\nGneiss is a popular ore type because it holds significant volumes of three heavily used minerals, increasing its utility value. It has quite a bit of Mexallon as well as some Pyerite and Isogen.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594996,
"groupID": 467,
"iconID": 3321,
@@ -275687,15 +275827,15 @@
"62556": {
"basePrice": 3842500.0,
"capacity": 0.0,
- "description_de": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Considered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 594998,
"groupID": 453,
"iconID": 3310,
@@ -275721,15 +275861,15 @@
"62557": {
"basePrice": 4039750.0,
"capacity": 0.0,
- "description_de": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Shiny black nuggets of onyx ochre look very nice and are occasionally used in ornaments. But the 5% higher mineral yield is what miners are really after. Like in all else, good looks are only an added bonus. \r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595000,
"groupID": 453,
"iconID": 3310,
@@ -275756,15 +275896,15 @@
"62558": {
"basePrice": 4226750.0,
"capacity": 0.0,
- "description_de": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Obsidian ochre, an extremely valuable member of the dark ochre family, was only first discovered a decade ago. The sleek black surface of this ore managed to reflect scanning waves, making obsidian ochre asteroids almost invisible. Advances in scanning technology revealed these beauties at last. This ore's 10% higher mineral yield makes it more than worth the effort required to find it.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595002,
"groupID": 453,
"iconID": 3310,
@@ -275791,15 +275931,15 @@
"62559": {
"basePrice": 147000.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of dark ochre ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard dark ochre when reprocessed.\r\n\r\nConsidered a worthless ore for years, dark ochre was ignored by most miners until improved reprocessing techniques managed to extract the huge amount of Isogen and Mexallon inside it. Dark ochre also contains useful amounts of Nocxium.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595004,
"groupID": 453,
"iconID": 3310,
@@ -275826,15 +275966,15 @@
"62560": {
"basePrice": 7639790.0,
"capacity": 0.0,
- "description_de": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Crokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595006,
"groupID": 452,
"iconID": 3309,
@@ -275860,15 +276000,15 @@
"62561": {
"basePrice": 8021400.0,
"capacity": 0.0,
- "description_de": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "In certain belts, environmental conditions will carve sharp, jagged edges into crokite rocks, resulting in the formation of sharp crokite. The increased density of these formations leads to a 5% greater mineral yield than standard crokite.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595008,
"groupID": 452,
"iconID": 3309,
@@ -275895,15 +276035,15 @@
"62562": {
"basePrice": 8400440.0,
"capacity": 0.0,
- "description_de": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Crystalline crokite is the stuff of legend. Not only does it give a 10% greater yield than regular crokite, but chunks of the rock glitter beautifully in just the right light, making crystalline crokite popular as raw material for jewelry.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595010,
"groupID": 452,
"iconID": 3309,
@@ -275929,15 +276069,15 @@
"62563": {
"basePrice": 384500.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of crokite ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard crokite when reprocessed.\r\n\r\nCrokite is a very heavy ore that is always in high demand because it has the largest ratio of Nocxium and Mexallon for any ore in the known universe. Valuable deposits of Pyerite can also be found within this rare ore.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595012,
"groupID": 452,
"iconID": 3309,
@@ -275964,15 +276104,15 @@
"62564": {
"basePrice": 10461840.0,
"capacity": 0.0,
- "description_de": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Bistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595014,
"groupID": 451,
"iconID": 3308,
@@ -275998,15 +276138,15 @@
"62565": {
"basePrice": 11004920.0,
"capacity": 0.0,
- "description_de": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Bistot with a triclinic crystal system occurs very rarely under natural conditions, but is highly popular with miners due to its extra-high concentrations of minerals. The yield from triclinic bistot is approximately 5% higher than from equivalent volumes of standard bistot.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595016,
"groupID": 451,
"iconID": 3308,
@@ -276033,15 +276173,15 @@
"62566": {
"basePrice": 11507000.0,
"capacity": 0.0,
- "description_de": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Monoclinic bistot is a variant of bistot with a slightly different crystal structure. It is highly sought-after, as it gives a 10% higher yield than its straightforward counterpart.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595018,
"groupID": 451,
"iconID": 3308,
@@ -276068,15 +276208,15 @@
"62567": {
"basePrice": 520000.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of bistot ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard bistot when reprocessed.\r\n\r\nBistot is a very valuable ore as it holds large portions of Zydrine and Pyerite. It also contains a decent amount of Mexallon.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595020,
"groupID": 451,
"iconID": 3308,
@@ -276103,15 +276243,15 @@
"62568": {
"basePrice": 15680470.0,
"capacity": 0.0,
- "description_de": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Arkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595022,
"groupID": 450,
"iconID": 3307,
@@ -276137,15 +276277,15 @@
"62569": {
"basePrice": 16120910.0,
"capacity": 0.0,
- "description_de": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "While fairly invisible to all but the most experienced miners, there are significant molecular differences between arkonor and its crimson counterpart, so-named because of the blood-red veins running through it. Miners who search for this diamond in the rough will be rewarded with mineral yields 5% higher than standard arkonor.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595024,
"groupID": 450,
"iconID": 3307,
@@ -276172,15 +276312,15 @@
"62570": {
"basePrice": 16868580.0,
"capacity": 0.0,
- "description_de": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Prime arkonor is the rarest of the rare; the king of ores. Giving a 10% greater mineral yield than regular arkonor, this is the stuff that makes billionaires out of people lucky enough to stumble upon a vein.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595026,
"groupID": 450,
"iconID": 3307,
@@ -276206,15 +276346,15 @@
"62571": {
"basePrice": 564000.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of arkonor ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard arkonor when reprocessed.\r\n\r\nArkonor is one of the rarest and most sought-after ores in the known universe. A sizable nugget of this can sweep anyone from rags to riches in no time. It has high amount of Megacyte, and also contains some Mexallon and Pyerite.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595028,
"groupID": 450,
"iconID": 3307,
@@ -276241,15 +276381,15 @@
"62572": {
"basePrice": 5747000.0,
"capacity": 0.0,
- "description_de": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Spodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595030,
"groupID": 461,
"iconID": 3316,
@@ -276275,15 +276415,15 @@
"62573": {
"basePrice": 6034350.0,
"capacity": 0.0,
- "description_de": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Spodumain is occasionally found with crystalline traces in its outer surface. Known as bright spodumain, the crystal adds approximately 5% more value to an already valuable mineral.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595032,
"groupID": 461,
"iconID": 3316,
@@ -276310,15 +276450,15 @@
"62574": {
"basePrice": 6321700.0,
"capacity": 0.0,
- "description_de": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Once in a while Spodumain is found with crystalline veins running through it. The 10% increased value this yields puts a gleam in the eye of any miner lucky enough to find it.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595034,
"groupID": 461,
"iconID": 3316,
@@ -276344,15 +276484,15 @@
"62575": {
"basePrice": 463000.0,
"capacity": 0.0,
- "description_de": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "This extremely rare and valuable variant of spodumain ore was recently discovered by ORE engineers during early field tests of new moon mining technology. Subsequent testing has confirmed that this ore produces 15% more minerals than standard spodumain when reprocessed.\r\n\r\nSpodumain is amongst the most desirable ore types around, as it contains high volumes of the most heavily demanded resource and some amounts of the more precious minerals. Huge volumes of Tritanium and moderate amounts of Isogen, Nocxium, Zydrine and Megacyte can be obtained by refining these rocks.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595036,
"groupID": 461,
"iconID": 3316,
@@ -276379,15 +276519,15 @@
"62576": {
"basePrice": 449945.0,
"capacity": 0.0,
- "description_de": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_en-us": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_es": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_fr": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_it": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_ja": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_ko": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_ru": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
- "description_zh": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte. ( copy )",
+ "description_de": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium, Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595038,
"graphicID": 24452,
"groupID": 4031,
@@ -276414,15 +276554,15 @@
"62577": {
"basePrice": 449945.0,
"capacity": 0.0,
- "description_de": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_en-us": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_es": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_fr": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_it": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_ja": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_ko": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_ru": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_zh": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
+ "description_de": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595040,
"graphicID": 24452,
"groupID": 4031,
@@ -276449,15 +276589,15 @@
"62578": {
"basePrice": 449945.0,
"capacity": 0.0,
- "description_de": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_en-us": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_es": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_fr": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_it": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_ja": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_ko": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_ru": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
- "description_zh": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte. ( copy )",
+ "description_de": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Intense neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595042,
"graphicID": 24452,
"groupID": 4031,
@@ -276484,15 +276624,15 @@
"62579": {
"basePrice": 401168.0,
"capacity": 0.0,
- "description_de": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_en-us": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_es": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_fr": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_it": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_ja": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_ko": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_ru": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
- "description_zh": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine. ( copy )",
+ "description_de": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Isogen whilst also yielding high amount of Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595044,
"graphicID": 24446,
"groupID": 4030,
@@ -276519,15 +276659,15 @@
"62580": {
"basePrice": 401168.0,
"capacity": 0.0,
- "description_de": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_en-us": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_es": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_fr": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_it": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_ja": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_ko": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_ru": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_zh": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
+ "description_de": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595046,
"graphicID": 24446,
"groupID": 4030,
@@ -276554,15 +276694,15 @@
"62581": {
"basePrice": 401168.0,
"capacity": 0.0,
- "description_de": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_en-us": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_es": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_fr": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_it": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_ja": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_ko": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_ru": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
- "description_zh": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine ( copy )",
+ "description_de": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Protracted neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Isogen and Zydrine.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595048,
"graphicID": 24446,
"groupID": 4030,
@@ -276589,15 +276729,15 @@
"62582": {
"basePrice": 234353.0,
"capacity": 0.0,
- "description_de": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_en-us": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_es": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_fr": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_it": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_ja": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_ko": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_ru": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
- "description_zh": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte. ( copy )",
+ "description_de": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield huge amounts of Tritanium and Nocxium whilst also yielding smaller amount of Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595050,
"graphicID": 24434,
"groupID": 4029,
@@ -276624,15 +276764,15 @@
"62583": {
"basePrice": 234353.0,
"capacity": 0.0,
- "description_de": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_en-us": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_es": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_fr": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_it": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_ja": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_ko": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_ru": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_zh": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
+ "description_de": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595052,
"graphicID": 24434,
"groupID": 4029,
@@ -276659,15 +276799,15 @@
"62584": {
"basePrice": 234353.0,
"capacity": 0.0,
- "description_de": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_en-us": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_es": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_fr": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_it": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_ja": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_ko": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_ru": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
- "description_zh": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte. ( copy )",
+ "description_de": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Light neutron deposition from the chaotic radiations observed near Abyssal Conduits have morphed the mineralogical composition of this Asteroid type, suspected to be formerly of the Scordite family. Reprocessing it will yield significant amounts of Tritanium whilst also yielding smaller amounts of Nocxium and Megacyte.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595054,
"graphicID": 24434,
"groupID": 4029,
@@ -276694,15 +276834,15 @@
"62586": {
"basePrice": 34734080.0,
"capacity": 0.0,
- "description_de": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Mercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595056,
"groupID": 468,
"iconID": 3322,
@@ -276727,15 +276867,15 @@
"62587": {
"basePrice": 36503552.0,
"capacity": 0.0,
- "description_de": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Though it floats through the frigid depths of space, magma mercoxit's striking appearance and sheen gives it the impression of bubbling magma. If this visual treasure wasn't enticing enough, the 5% higher yield certainly attracts admirers.\r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595058,
"groupID": 468,
"iconID": 3322,
@@ -276760,15 +276900,15 @@
"62588": {
"basePrice": 38207488.0,
"capacity": 0.0,
- "description_de": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_en-us": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_es": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_fr": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_it": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ja": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ko": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_ru": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
- "description_zh": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis ore is a compressed and much more dense version of the original ore. ( copy )",
+ "description_de": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_en-us": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_es": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_fr": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_it": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ja": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ko": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_ru": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
+ "description_zh": "Vitreous mercoxit gleams in the dark, like a siren of myth. Found only in rare clusters in space vitreous mercoxit is very rare, but very valuable, due to its much higher 10% yield. \r\n\r\nMercoxit is a very dense ore that must be mined using specialized deep core mining techniques. It contains massive amounts of the extraordinary Morphite mineral.\r\n\r\nThis material is compressed and a much more compact form of the original material.",
"descriptionID": 595060,
"groupID": 468,
"iconID": 3322,
@@ -276804,6 +276944,7 @@
"description_zh": "",
"descriptionID": 595062,
"groupID": 4174,
+ "iconID": 25152,
"isDynamicType": 0,
"mass": 0.0,
"metaLevel": 1,
@@ -276827,15 +276968,15 @@
"62590": {
"basePrice": 20000000.0,
"capacity": 0.0,
- "description_de": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_en-us": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_es": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_fr": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_it": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_ja": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_ko": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_ru": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_zh": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
+ "description_de": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_en-us": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_es": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_fr": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_it": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_ja": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_ko": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_ru": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_zh": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
"descriptionID": 595066,
"groupID": 515,
"iconID": 2851,
@@ -276864,15 +277005,15 @@
"62591": {
"basePrice": 50000000.0,
"capacity": 0.0,
- "description_de": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_en-us": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_es": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_fr": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_it": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_ja": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_ko": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_ru": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
- "description_zh": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship. ",
+ "description_de": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_en-us": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_es": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_fr": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_it": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_ja": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_ko": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_ru": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
+ "description_zh": "An electronic interface designed to facilitate the deployment of the Porpoise into its industrial configuration. Whilst in the deployed configuration, energy from the Porpoise's engines is channeled into incredible shield defenses, improved mining foreman bursts and significantly enhanced mining drone coordination.\r\n\r\nDeployed Porpoises also gain the ability to activate medium compressor modules, enabling compression of gas and asteroid ore.\r\n\r\nBenefits of using this module alongside other modules that affect the same attributes will be subject to diminishing returns.\r\n\r\nNote: Can only be fitted to the Porpoise industrial command ship.",
"descriptionID": 595069,
"groupID": 515,
"iconID": 2851,
@@ -277072,6 +277213,7 @@
"marketGroupID": 2531,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277107,6 +277249,7 @@
"marketGroupID": 2531,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277142,6 +277285,7 @@
"marketGroupID": 2531,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277177,6 +277321,7 @@
"marketGroupID": 2531,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277212,6 +277357,7 @@
"marketGroupID": 2531,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277247,6 +277393,7 @@
"marketGroupID": 2531,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277282,6 +277429,7 @@
"marketGroupID": 2790,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277317,6 +277465,7 @@
"marketGroupID": 2790,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277352,6 +277501,7 @@
"marketGroupID": 2790,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277387,6 +277537,7 @@
"marketGroupID": 2790,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277422,6 +277573,7 @@
"marketGroupID": 2790,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277457,6 +277609,7 @@
"marketGroupID": 2790,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277492,6 +277645,7 @@
"marketGroupID": 2791,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277527,6 +277681,7 @@
"marketGroupID": 2791,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277562,6 +277717,7 @@
"marketGroupID": 2791,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277597,6 +277753,7 @@
"marketGroupID": 2791,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277632,6 +277789,7 @@
"marketGroupID": 2791,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277667,6 +277825,7 @@
"marketGroupID": 2791,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277702,6 +277861,7 @@
"marketGroupID": 2792,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277737,6 +277897,7 @@
"marketGroupID": 2792,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277772,6 +277933,7 @@
"marketGroupID": 2792,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277807,6 +277969,7 @@
"marketGroupID": 2792,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 0,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277842,6 +278005,7 @@
"marketGroupID": 2792,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 3,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277877,6 +278041,7 @@
"marketGroupID": 2792,
"mass": 0.0,
"metaGroupID": 19,
+ "metaLevel": 5,
"portionSize": 1,
"published": 1,
"radius": 1.0,
@@ -277896,15 +278061,15 @@
"62622": {
"basePrice": 6000000.0,
"capacity": 0.0,
- "description_de": " ( copy )",
- "description_en-us": " ( copy )",
- "description_es": " ( copy )",
- "description_fr": " ( copy )",
- "description_it": " ( copy )",
- "description_ja": " ( copy )",
- "description_ko": " ( copy )",
- "description_ru": " ( copy )",
- "description_zh": " ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595133,
"groupID": 4174,
"iconID": 25150,
@@ -277917,30 +278082,30 @@
"radius": 1.0,
"techLevel": 1,
"typeID": 62622,
- "typeName_de": "Medium Asteroid ore Compressor I",
- "typeName_en-us": "Medium Asteroid ore Compressor I",
- "typeName_es": "Medium Asteroid ore Compressor I",
- "typeName_fr": "Medium Asteroid ore Compressor I",
- "typeName_it": "Medium Asteroid ore Compressor I",
- "typeName_ja": "Medium Asteroid ore Compressor I",
- "typeName_ko": "Medium Asteroid ore Compressor I",
- "typeName_ru": "Medium Asteroid ore Compressor I",
- "typeName_zh": "Medium Asteroid ore Compressor I",
+ "typeName_de": "Medium Asteroid Ore Compressor I",
+ "typeName_en-us": "Medium Asteroid Ore Compressor I",
+ "typeName_es": "Medium Asteroid Ore Compressor I",
+ "typeName_fr": "Medium Asteroid Ore Compressor I",
+ "typeName_it": "Medium Asteroid Ore Compressor I",
+ "typeName_ja": "Medium Asteroid Ore Compressor I",
+ "typeName_ko": "Medium Asteroid Ore Compressor I",
+ "typeName_ru": "Medium Asteroid Ore Compressor I",
+ "typeName_zh": "Medium Asteroid Ore Compressor I",
"typeNameID": 595132,
"volume": 500.0
},
"62624": {
"basePrice": 30000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595136,
"groupID": 4174,
"iconID": 25153,
@@ -277968,15 +278133,15 @@
"62625": {
"basePrice": 12000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595138,
"groupID": 4174,
"iconID": 25151,
@@ -278004,15 +278169,15 @@
"62626": {
"basePrice": 60000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595140,
"groupID": 4174,
"iconID": 25154,
@@ -278040,15 +278205,15 @@
"62628": {
"basePrice": 30000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595143,
"groupID": 4174,
"iconID": 25156,
@@ -278076,15 +278241,15 @@
"62630": {
"basePrice": 45000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595146,
"groupID": 4174,
"iconID": 25158,
@@ -278112,15 +278277,15 @@
"62631": {
"basePrice": 61000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595148,
"groupID": 4174,
"iconID": 25160,
@@ -278148,15 +278313,15 @@
"62632": {
"basePrice": 24340000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested asteroid ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595150,
"groupID": 4174,
"iconID": 25152,
@@ -278184,15 +278349,15 @@
"62633": {
"basePrice": 60000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested ice resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595152,
"groupID": 4174,
"iconID": 25157,
@@ -278220,15 +278385,15 @@
"62634": {
"basePrice": 121000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested gas cloud resources by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595154,
"groupID": 4174,
"iconID": 25155,
@@ -278256,15 +278421,15 @@
"62635": {
"basePrice": 91275000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested Mercoxit ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595156,
"groupID": 4174,
"iconID": 25159,
@@ -278292,15 +278457,15 @@
"62636": {
"basePrice": 121000000.0,
"capacity": 0.0,
- "description_de": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_en-us": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_es": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_fr": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_it": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ja": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ko": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_ru": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
- "description_zh": " ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy ) ( copy )",
+ "description_de": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_en-us": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_es": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_fr": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_it": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ja": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ko": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_ru": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
+ "description_zh": "This module uses ORE's latest materials compression technology to enable compression of harvested moon ore by a ship operating with an industrial core.\r\n\r\nCompressors are also equipped with powerful computer arrays and logistics firmware that can interface with other ships in mining fleets. These features allow for high-efficiency fleet logistics co-ordination, permitting rapid transfer, cargo-handling, and compression of materials across the fleet.\r\n\r\nActivation of a compressor requires any ship using it to have an active industrial core.",
"descriptionID": 595158,
"groupID": 4174,
"iconID": 25161,
@@ -279365,10 +279530,10 @@
"typeName_de": "Non-Interactable Angel Control Tower",
"typeName_en-us": "Non-Interactable Angel Control Tower",
"typeName_es": "Non-Interactable Angel Control Tower",
- "typeName_fr": "Non-Interactable Angel Control Tower",
+ "typeName_fr": "Tour de contrôle angel non interactive",
"typeName_it": "Non-Interactable Angel Control Tower",
- "typeName_ja": "Non-Interactable Angel Control Tower",
- "typeName_ko": "Non-Interactable Angel Control Tower",
+ "typeName_ja": "非相互エンジェルコントロールタワー",
+ "typeName_ko": "엔젤 카르텔 관제타워 (상호작용 불가)",
"typeName_ru": "Non-Interactable Angel Control Tower",
"typeName_zh": "Non-Interactable Angel Control Tower",
"typeNameID": 595430,
@@ -279389,10 +279554,10 @@
"typeName_de": "Non-Interactable Serpentis Control Tower",
"typeName_en-us": "Non-Interactable Serpentis Control Tower",
"typeName_es": "Non-Interactable Serpentis Control Tower",
- "typeName_fr": "Non-Interactable Serpentis Control Tower",
+ "typeName_fr": "Tour de contrôle Serpentis non interactive",
"typeName_it": "Non-Interactable Serpentis Control Tower",
- "typeName_ja": "Non-Interactable Serpentis Control Tower",
- "typeName_ko": "Non-Interactable Serpentis Control Tower",
+ "typeName_ja": "非相互サーペンティスコントロールタワー",
+ "typeName_ko": "서펜티스 관제타워 (상호작용 불가)",
"typeName_ru": "Non-Interactable Serpentis Control Tower",
"typeName_zh": "Non-Interactable Serpentis Control Tower",
"typeNameID": 595431,
@@ -279412,10 +279577,10 @@
"typeName_de": "Non-Interactable Gala Bunker",
"typeName_en-us": "Non-Interactable Gala Bunker",
"typeName_es": "Non-Interactable Gala Bunker",
- "typeName_fr": "Non-Interactable Gala Bunker",
+ "typeName_fr": "Bunker du Gala non interactif",
"typeName_it": "Non-Interactable Gala Bunker",
- "typeName_ja": "Non-Interactable Gala Bunker",
- "typeName_ko": "Non-Interactable Gala Bunker",
+ "typeName_ja": "非相互ガーラバンカー",
+ "typeName_ko": "갈라 벙커 (상호작용 불가)",
"typeName_ru": "Non-Interactable Gala Bunker",
"typeName_zh": "Non-Interactable Gala Bunker",
"typeNameID": 595432,
@@ -279435,10 +279600,10 @@
"typeName_de": "Non-Interactable Gala Junction",
"typeName_en-us": "Non-Interactable Gala Junction",
"typeName_es": "Non-Interactable Gala Junction",
- "typeName_fr": "Non-Interactable Gala Junction",
+ "typeName_fr": "Jonction du Gala non interactive",
"typeName_it": "Non-Interactable Gala Junction",
- "typeName_ja": "Non-Interactable Gala Junction",
- "typeName_ko": "Non-Interactable Gala Junction",
+ "typeName_ja": "非相互ガーラジャンクション",
+ "typeName_ko": "갈라 교차지 (상호작용 불가)",
"typeName_ru": "Non-Interactable Gala Junction",
"typeName_zh": "Non-Interactable Gala Junction",
"typeNameID": 595433,
@@ -279458,10 +279623,10 @@
"typeName_de": "Non-Interactable Gala Lookout",
"typeName_en-us": "Non-Interactable Gala Lookout",
"typeName_es": "Non-Interactable Gala Lookout",
- "typeName_fr": "Non-Interactable Gala Lookout",
+ "typeName_fr": "Poste d'observation du Gala non interactif",
"typeName_it": "Non-Interactable Gala Lookout",
- "typeName_ja": "Non-Interactable Gala Lookout",
- "typeName_ko": "Non-Interactable Gala Lookout",
+ "typeName_ja": "非相互ガーラの監視所",
+ "typeName_ko": "갈라 정찰초소 (상호작용 불가)",
"typeName_ru": "Non-Interactable Gala Lookout",
"typeName_zh": "Non-Interactable Gala Lookout",
"typeNameID": 595434,
@@ -279481,10 +279646,10 @@
"typeName_de": "Non-Interactable Gala Barricade",
"typeName_en-us": "Non-Interactable Gala Barricade",
"typeName_es": "Non-Interactable Gala Barricade",
- "typeName_fr": "Non-Interactable Gala Barricade",
+ "typeName_fr": "Barricade du Gala non interactive",
"typeName_it": "Non-Interactable Gala Barricade",
- "typeName_ja": "Non-Interactable Gala Barricade",
- "typeName_ko": "Non-Interactable Gala Barricade",
+ "typeName_ja": "非相互ガーラバリケード",
+ "typeName_ko": "갈라 바리케이드 (상호작용 불가)",
"typeName_ru": "Non-Interactable Gala Barricade",
"typeName_zh": "Non-Interactable Gala Barricade",
"typeNameID": 595435,
@@ -279504,10 +279669,10 @@
"typeName_de": "Non-interactable Rorqual",
"typeName_en-us": "Non-interactable Rorqual",
"typeName_es": "Non-interactable Rorqual",
- "typeName_fr": "Non-interactable Rorqual",
+ "typeName_fr": "Rorqual non interactif",
"typeName_it": "Non-interactable Rorqual",
- "typeName_ja": "Non-interactable Rorqual",
- "typeName_ko": "Non-interactable Rorqual",
+ "typeName_ja": "非相互ロークアル",
+ "typeName_ko": "로퀄 (상호작용 불가)",
"typeName_ru": "Non-interactable Rorqual",
"typeName_zh": "Non-interactable Rorqual",
"typeNameID": 595436,
@@ -279527,10 +279692,10 @@
"typeName_de": "Non-interactable Bowhead",
"typeName_en-us": "Non-interactable Bowhead",
"typeName_es": "Non-interactable Bowhead",
- "typeName_fr": "Non-interactable Bowhead",
+ "typeName_fr": "Bowhead non interactif",
"typeName_it": "Non-interactable Bowhead",
- "typeName_ja": "Non-interactable Bowhead",
- "typeName_ko": "Non-interactable Bowhead",
+ "typeName_ja": "非相互ボウヘッド",
+ "typeName_ko": "보우헤드 (상호작용 불가)",
"typeName_ru": "Non-interactable Bowhead",
"typeName_zh": "Non-interactable Bowhead",
"typeNameID": 595437,
@@ -279574,15 +279739,37 @@
"typeName_de": "Non-interactable Gala Elevator",
"typeName_en-us": "Non-interactable Gala Elevator",
"typeName_es": "Non-interactable Gala Elevator",
- "typeName_fr": "Non-interactable Gala Elevator",
+ "typeName_fr": "Ascenseur du Gala non interactif",
"typeName_it": "Non-interactable Gala Elevator",
- "typeName_ja": "Non-interactable Gala Elevator",
- "typeName_ko": "Non-interactable Gala Elevator",
+ "typeName_ja": "非相互ガーラエレベーター",
+ "typeName_ko": "갈라 엘리베이터 (상호작용 불가)",
"typeName_ru": "Non-interactable Gala Elevator",
"typeName_zh": "Non-interactable Gala Elevator",
"typeNameID": 595440,
"volume": 0.0
},
+ "62750": {
+ "basePrice": 0.0,
+ "capacity": 0.0,
+ "groupID": 1088,
+ "iconID": 25149,
+ "mass": 0.5,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 62750,
+ "typeName_de": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_en-us": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_es": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_fr": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_it": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_ja": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_ko": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_ru": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeName_zh": "62750_Male_outer_ExplorationSuit_M01_Types_ExplorationSuit_M01_AIR.png",
+ "typeNameID": 595442,
+ "volume": 0.1
+ },
"62751": {
"basePrice": 0.0,
"capacity": 0.0,
@@ -279597,10 +279784,10 @@
"typeName_de": "Non-interactable Landing Pad",
"typeName_en-us": "Non-interactable Landing Pad",
"typeName_es": "Non-interactable Landing Pad",
- "typeName_fr": "Non-interactable Landing Pad",
+ "typeName_fr": "Plateforme d'atterrissage non interactive",
"typeName_it": "Non-interactable Landing Pad",
- "typeName_ja": "Non-interactable Landing Pad",
- "typeName_ko": "Non-interactable Landing Pad",
+ "typeName_ja": "非相互着陸台",
+ "typeName_ko": "착륙장 (상호작용 불가)",
"typeName_ru": "Non-interactable Landing Pad",
"typeName_zh": "Non-interactable Landing Pad",
"typeNameID": 595443,
@@ -279620,10 +279807,10 @@
"typeName_de": "Non-interactable Procurer",
"typeName_en-us": "Non-interactable Procurer",
"typeName_es": "Non-interactable Procurer",
- "typeName_fr": "Non-interactable Procurer",
+ "typeName_fr": "Procurer non interactif",
"typeName_it": "Non-interactable Procurer",
- "typeName_ja": "Non-interactable Procurer",
- "typeName_ko": "Non-interactable Procurer",
+ "typeName_ja": "非相互プロキュアラー",
+ "typeName_ko": "프로큐러 (상호작용 불가)",
"typeName_ru": "Non-interactable Procurer",
"typeName_zh": "Non-interactable Procurer",
"typeNameID": 595445,
@@ -279643,10 +279830,10 @@
"typeName_de": "Non-interactable Retriever",
"typeName_en-us": "Non-interactable Retriever",
"typeName_es": "Non-interactable Retriever",
- "typeName_fr": "Non-interactable Retriever",
+ "typeName_fr": "Retriever non interactif",
"typeName_it": "Non-interactable Retriever",
- "typeName_ja": "Non-interactable Retriever",
- "typeName_ko": "Non-interactable Retriever",
+ "typeName_ja": "非相互レトリーバー",
+ "typeName_ko": "리트리버 (상호작용 불가)",
"typeName_ru": "Non-interactable Retriever",
"typeName_zh": "Non-interactable Retriever",
"typeNameID": 595447,
@@ -279666,10 +279853,10 @@
"typeName_de": "Non-interactable Covetor",
"typeName_en-us": "Non-interactable Covetor",
"typeName_es": "Non-interactable Covetor",
- "typeName_fr": "Non-interactable Covetor",
+ "typeName_fr": "Covetor non interactif",
"typeName_it": "Non-interactable Covetor",
- "typeName_ja": "Non-interactable Covetor",
- "typeName_ko": "Non-interactable Covetor",
+ "typeName_ja": "非相互コベトアー",
+ "typeName_ko": "코베터 (상호작용 불가)",
"typeName_ru": "Non-interactable Covetor",
"typeName_zh": "Non-interactable Covetor",
"typeNameID": 595448,
@@ -279689,10 +279876,10 @@
"typeName_de": "Non-interactable Procurer 2",
"typeName_en-us": "Non-interactable Procurer 2",
"typeName_es": "Non-interactable Procurer 2",
- "typeName_fr": "Non-interactable Procurer 2",
+ "typeName_fr": "Procurer 2 non interactif",
"typeName_it": "Non-interactable Procurer 2",
- "typeName_ja": "Non-interactable Procurer 2",
- "typeName_ko": "Non-interactable Procurer 2",
+ "typeName_ja": "非相互プロキュアラー2",
+ "typeName_ko": "프로큐러 2 (상호작용 불가)",
"typeName_ru": "Non-interactable Procurer 2",
"typeName_zh": "Non-interactable Procurer 2",
"typeNameID": 595449,
@@ -279712,10 +279899,10 @@
"typeName_de": "Non-interactable Retriever 2",
"typeName_en-us": "Non-interactable Retriever 2",
"typeName_es": "Non-interactable Retriever 2",
- "typeName_fr": "Non-interactable Retriever 2",
+ "typeName_fr": "Retriever 2 non interactif",
"typeName_it": "Non-interactable Retriever 2",
- "typeName_ja": "Non-interactable Retriever 2",
- "typeName_ko": "Non-interactable Retriever 2",
+ "typeName_ja": "非相互レトリーバー2",
+ "typeName_ko": "리트리버 2 (상호작용 불가)",
"typeName_ru": "Non-interactable Retriever 2",
"typeName_zh": "Non-interactable Retriever 2",
"typeNameID": 595450,
@@ -279735,10 +279922,10 @@
"typeName_de": "Non-interactable Covetor 2",
"typeName_en-us": "Non-interactable Covetor 2",
"typeName_es": "Non-interactable Covetor 2",
- "typeName_fr": "Non-interactable Covetor 2",
+ "typeName_fr": "Covetor 2 non interactif",
"typeName_it": "Non-interactable Covetor 2",
- "typeName_ja": "Non-interactable Covetor 2",
- "typeName_ko": "Non-interactable Covetor 2",
+ "typeName_ja": "非相互コベトアー2",
+ "typeName_ko": "코베터 2 (상호작용 불가)",
"typeName_ru": "Non-interactable Covetor 2",
"typeName_zh": "Non-interactable Covetor 2",
"typeNameID": 595451,
@@ -279758,10 +279945,10 @@
"typeName_de": "Non-interactable Skiff",
"typeName_en-us": "Non-interactable Skiff",
"typeName_es": "Non-interactable Skiff",
- "typeName_fr": "Non-interactable Skiff",
+ "typeName_fr": "Skiff non interactif",
"typeName_it": "Non-interactable Skiff",
- "typeName_ja": "Non-interactable Skiff",
- "typeName_ko": "Non-interactable Skiff",
+ "typeName_ja": "非相互スキフ",
+ "typeName_ko": "스키프 (상호작용 불가)",
"typeName_ru": "Non-interactable Skiff",
"typeName_zh": "Non-interactable Skiff",
"typeNameID": 595452,
@@ -279781,10 +279968,10 @@
"typeName_de": "Non-interactable Mackinaw",
"typeName_en-us": "Non-interactable Mackinaw",
"typeName_es": "Non-interactable Mackinaw",
- "typeName_fr": "Non-interactable Mackinaw",
+ "typeName_fr": "Mackinaw non interactif",
"typeName_it": "Non-interactable Mackinaw",
- "typeName_ja": "Non-interactable Mackinaw",
- "typeName_ko": "Non-interactable Mackinaw",
+ "typeName_ja": "非相互マッキノー",
+ "typeName_ko": "마키나우 (상호작용 불가)",
"typeName_ru": "Non-interactable Mackinaw",
"typeName_zh": "Non-interactable Mackinaw",
"typeNameID": 595453,
@@ -279804,10 +279991,10 @@
"typeName_de": "Non-interactable Hulk",
"typeName_en-us": "Non-interactable Hulk",
"typeName_es": "Non-interactable Hulk",
- "typeName_fr": "Non-interactable Hulk",
+ "typeName_fr": "Hulk non interactif",
"typeName_it": "Non-interactable Hulk",
- "typeName_ja": "Non-interactable Hulk",
- "typeName_ko": "Non-interactable Hulk",
+ "typeName_ja": "非相互ハルク",
+ "typeName_ko": "헐크 (상호작용 불가)",
"typeName_ru": "Non-interactable Hulk",
"typeName_zh": "Non-interactable Hulk",
"typeNameID": 595454,
@@ -279827,10 +280014,10 @@
"typeName_de": "Non-interactable Skiff 2",
"typeName_en-us": "Non-interactable Skiff 2",
"typeName_es": "Non-interactable Skiff 2",
- "typeName_fr": "Non-interactable Skiff 2",
+ "typeName_fr": "Skiff 2 non interactif",
"typeName_it": "Non-interactable Skiff 2",
- "typeName_ja": "Non-interactable Skiff 2",
- "typeName_ko": "Non-interactable Skiff 2",
+ "typeName_ja": "非相互スキフ2",
+ "typeName_ko": "스키프 2 (상호작용 불가)",
"typeName_ru": "Non-interactable Skiff 2",
"typeName_zh": "Non-interactable Skiff 2",
"typeNameID": 595455,
@@ -279850,10 +280037,10 @@
"typeName_de": "Non-interactable Mackinaw 2",
"typeName_en-us": "Non-interactable Mackinaw 2",
"typeName_es": "Non-interactable Mackinaw 2",
- "typeName_fr": "Non-interactable Mackinaw 2",
+ "typeName_fr": "Mackinaw 2 non interactif",
"typeName_it": "Non-interactable Mackinaw 2",
- "typeName_ja": "Non-interactable Mackinaw 2",
- "typeName_ko": "Non-interactable Mackinaw 2",
+ "typeName_ja": "非相互マッキノー2",
+ "typeName_ko": "마키나우 2 (상호작용 불가)",
"typeName_ru": "Non-interactable Mackinaw 2",
"typeName_zh": "Non-interactable Mackinaw 2",
"typeNameID": 595456,
@@ -279873,10 +280060,10 @@
"typeName_de": "Non-interactable Hulk 2",
"typeName_en-us": "Non-interactable Hulk 2",
"typeName_es": "Non-interactable Hulk 2",
- "typeName_fr": "Non-interactable Hulk 2",
+ "typeName_fr": "Hulk 2 non interactif",
"typeName_it": "Non-interactable Hulk 2",
- "typeName_ja": "Non-interactable Hulk 2",
- "typeName_ko": "Non-interactable Hulk 2",
+ "typeName_ja": "非相互ハルク2",
+ "typeName_ko": "헐크 2 (상호작용 불가)",
"typeName_ru": "Non-interactable Hulk 2",
"typeName_zh": "Non-interactable Hulk 2",
"typeNameID": 595457,
@@ -279896,10 +280083,10 @@
"typeName_de": "Non-interactable Orca",
"typeName_en-us": "Non-interactable Orca",
"typeName_es": "Non-interactable Orca",
- "typeName_fr": "Non-interactable Orca",
+ "typeName_fr": "Orca non interactif",
"typeName_it": "Non-interactable Orca",
- "typeName_ja": "Non-interactable Orca",
- "typeName_ko": "Non-interactable Orca",
+ "typeName_ja": "非相互オルカ",
+ "typeName_ko": "오르카 (상호작용 불가)",
"typeName_ru": "Non-interactable Orca",
"typeName_zh": "Non-interactable Orca",
"typeNameID": 595458,
@@ -279919,10 +280106,10 @@
"typeName_de": "Non-interactable Porpoise",
"typeName_en-us": "Non-interactable Porpoise",
"typeName_es": "Non-interactable Porpoise",
- "typeName_fr": "Non-interactable Porpoise",
+ "typeName_fr": "Porpoise non interactif",
"typeName_it": "Non-interactable Porpoise",
- "typeName_ja": "Non-interactable Porpoise",
- "typeName_ko": "Non-interactable Porpoise",
+ "typeName_ja": "非相互ポーポイズ",
+ "typeName_ko": "포어포이스 (상호작용 불가)",
"typeName_ru": "Non-interactable Porpoise",
"typeName_zh": "Non-interactable Porpoise",
"typeNameID": 595460,
@@ -280060,6 +280247,292 @@
"typeNameID": 595605,
"volume": 0.01
},
+ "63028": {
+ "basePrice": 0.0,
+ "capacity": 0.0,
+ "description_de": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_en-us": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_es": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_fr": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_it": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_ja": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_ko": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
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+ "description_it": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
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+ "description_it": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_ja": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_ko": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_ru": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
+ "description_zh": "Used by elite corporate executives and celebrity brand ambassadors of Semiotique Superluminal, this exclusive nanocoating was designed to mark the launch of the Semiotique Sports brand by one of the biggest players in New Eden's communications and media landscape.\r\n\r\nSemiotique Superluminal is one of New Eden's largest FTL communications corporations, owned by the reclusive and eccentric trillionaire Lous Chavol, founder of the Scope and an immensely powerful figure in the Gallente Federation's corporate world. From its beginnings as one of the more successful FTL communications companies during the last expansion phase of the Gallente Federation, Semiotique has become a megacorporation that may even rival the titanic Quafe Company for its reach.\r\n\r\nIn recent decades, Semiotique Superluminal has expanded its activities into all manner of technology, media, and entertainment interests. The holocasting and virtuality industries are a major growth area for the corporation, and under its Semiotique Sports brand it has ambitious plans to expand into popular high-tech sports such as Gravball, Mind Clash, spaceship racing, and even the controversial but incredibly lucrative combat sports field.",
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@@ -305587,377 +306060,5 @@
"typeName_zh": "'Trojan' Fire Control System",
"typeNameID": 280245,
"volume": 0.01
- },
- "355791": {
- "basePrice": 17360.0,
- "capacity": 0.0,
- "description_de": "Verringert das Aufheizen von Blaster- und Railgun-Geschützen und verlängert somit die effektive Schusszeit vor Überhitzung. Verringert die Hitzebelastung pro Schuss um 14%.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 14%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Reduce el recalentamiento de las torretas de bláster y cañón gauss, incrementando así el tiempo de disparo efectivo. Reduce el calentamiento por disparo en un 14%.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Réduit la surchauffe des tourelles de blasters et de canon à rails, augmentant ainsi le temps de tir avant de surchauffer. Réduit de 14 % la chaleur causée par les tirs.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Riduce l'accumulo di calore delle torrette di cannoni blaster e cannoni a rotaia, consentendo di sparare più a lungo prima del surriscaldamento. Riduce il consumo di calore per colpo del 14%.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "ブラスターやレールガンタレットの発熱を減少し、オーバーヒートまでの射撃持続時間を増やす。1ショット当たりの発熱量を14%削減。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "블라스터와 레일건 터렛의 발열을 감소시켜 과부화를 늦춥니다. 매 공격마다 발열 14% 감소
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Снижает тепловыделение бластерных и рейлганных турелей, тем самым увеличивая время на ведение огня, перед перегревом. Снижает меру нагрева, за выстрел, на 14%.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 14%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284185,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355791,
- "typeName_de": "Modifizierter extrudierter Kühler",
- "typeName_en-us": "Modified Extruded Heat Sink",
- "typeName_es": "Disipador térmico extruido modificado",
- "typeName_fr": "Dissipateur thermique profilé modifié",
- "typeName_it": "Dissipatore di calore estruso modificato",
- "typeName_ja": "改造型押出放熱機",
- "typeName_ko": "개조된 익스트루드 방열판",
- "typeName_ru": "Модифицированный формованный теплопоглотитель",
- "typeName_zh": "Modified Extruded Heat Sink",
- "typeNameID": 280215,
- "volume": 0.01
- },
- "355792": {
- "basePrice": 25160.0,
- "capacity": 0.0,
- "description_de": "Verringert das Aufheizen von Blaster- und Railgun-Geschützen und verlängert somit die effektive Schusszeit vor Überhitzung. Verringert die Hitzebelastung pro Schuss um 19%.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 19%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Reduce el recalentamiento de las torretas de bláster y cañón gauss, incrementando así el tiempo de disparo efectivo. Reduce el calentamiento por disparo en un 19%.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Réduit la surchauffe des tourelles de blasters et de canon à rails, augmentant ainsi le temps de tir avant de surchauffer. Réduit de 19 % la chaleur causée par les tirs.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Riduce l'accumulo di calore delle torrette di cannoni blaster e cannoni a rotaia, consentendo di sparare più a lungo prima del surriscaldamento. Riduce il consumo di calore per colpo del 19%.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "ブラスターやレールガンタレットの発熱を減少し、オーバーヒートまでの射撃持続時間を増やす。1ショット当たりの発熱量を19%削減。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "블라스터와 레일건 터렛의 발열을 감소시켜 과부화를 늦춥니다. 매 공격마다 발열 19% 감소
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Снижает тепловыделение бластерных и рейлганных турелей, тем самым увеличивая время на ведение огня, перед перегревом. Снижает меру нагрева, за выстрел, на 19%.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 19%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
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- "groupID": 351121,
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- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355792,
- "typeName_de": "Belüfteter Kühler",
- "typeName_en-us": "Vented Heat Sink",
- "typeName_es": "Disipador térmico ventilado",
- "typeName_fr": "Dissipateur thermique aéré",
- "typeName_it": "Dissipatore di calore forato",
- "typeName_ja": "ベント型放熱機",
- "typeName_ko": "벤트 방열판",
- "typeName_ru": "Вентилированный теплопоглотитель",
- "typeName_zh": "Vented Heat Sink",
- "typeNameID": 280216,
- "volume": 0.01
- },
- "355793": {
- "basePrice": 25160.0,
- "capacity": 0.0,
- "description_de": "Verringert das Aufheizen von Blaster- und Railgun-Geschützen und verlängert somit die effektive Schusszeit vor Überhitzung. Verringert die Hitzebelastung pro Schuss um 18%.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 18%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Reduce el recalentamiento de las torretas de bláster y cañón gauss, incrementando así el tiempo de fuego efectivo. Reduce el calentamiento por disparo en un 18%.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Réduit la surchauffe des tourelles de canon à rails et des blasters, augmentant ainsi le temps de tir avant de surchauffer. Réduit de 18 % la chaleur causée par les tirs.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Riduce l'accumulo di calore delle torrette di cannoni blaster e cannoni a rotaia, consentendo di sparare più a lungo prima del surriscaldamento. Riduce il consumo di calore per colpo del 18%.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "ブラスターやレールガンタレットの発熱を減少し、オーバーヒートまでの射撃持続時間を増やす。 1ショット当たりの発熱量を18%削減。\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "블라스터와 레일건 터렛의 발열을 감소시켜 과부화를 늦춥니다. 매 공격마다 발열 18% 감소
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Снижает тепловыделение бластерных и рейлганных турелей, тем самым увеличивая время на ведение огня, перед перегревом. Снижает меру нагрева на 18% за выстрел.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 18%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284188,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355793,
- "typeName_de": "Kühler 'Helios'",
- "typeName_en-us": "'Helios' Heat Sink",
- "typeName_es": "Disipador térmico \"Helios\"",
- "typeName_fr": "Dissipateur thermique « Helios »",
- "typeName_it": "Dissipatore di calore \"Helios\"",
- "typeName_ja": "「ヘリオス」放熱機",
- "typeName_ko": "'헬리오스' 방열판",
- "typeName_ru": "Теплопоглотитель 'Helios'",
- "typeName_zh": "'Helios' Heat Sink",
- "typeNameID": 280248,
- "volume": 0.01
- },
- "355798": {
- "basePrice": 3750.0,
- "capacity": 0.0,
- "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Railgun-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones gauss montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de canon à rails installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone a rotaia equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのレールガンタレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "모듈 활성화 시 차량용 레일건의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми рейлганными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 281557,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355798,
- "typeName_de": "Einfacher Railgun-Schadensverstärker",
- "typeName_en-us": "Basic Railgun Damage Amplifer",
- "typeName_es": "Amplificador de daño gauss básico",
- "typeName_fr": "Amplificateur de dommages de canon à rails basique",
- "typeName_it": "Amplificatore danni cannone a rotaia di base",
- "typeName_ja": "基本レールガンダメージ増幅器",
- "typeName_ko": "기본 레일건 피해 증폭기",
- "typeName_ru": "Базовый усилитель урона для рейлганов",
- "typeName_zh": "Basic Railgun Damage Amplifer",
- "typeNameID": 280065,
- "volume": 0.01
- },
- "355799": {
- "basePrice": 10050.0,
- "capacity": 0.0,
- "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Railgun-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones gauss montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de canon à rails installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone a rotaia equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのレールガンタレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "모듈 활성화 시 차량용 레일건의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми рейлганными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284529,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355799,
- "typeName_de": "Verbesserter Railgun-Schadensverstärker",
- "typeName_en-us": "Enhanced Railgun Damage Amplifer",
- "typeName_es": "Amplificador de daño gauss mejorado",
- "typeName_fr": "Amplificateur de dommages de canon à rails optimisé",
- "typeName_it": "Amplificatore danni cannone a rotaia perfezionato",
- "typeName_ja": "強化型レールガンダメージ増幅器",
- "typeName_ko": "향상된 레일건 피해 증폭기",
- "typeName_ru": "Улучшенный усилитель урона для рейлганов",
- "typeName_zh": "Enhanced Railgun Damage Amplifer",
- "typeNameID": 280066,
- "volume": 0.01
- },
- "355800": {
- "basePrice": 16440.0,
- "capacity": 0.0,
- "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Railgun-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones gauss montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de canon à rails installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone a rotaia equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのレールガンタレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "모듈 활성화 시 차량용 레일건의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми рейлганными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284530,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355800,
- "typeName_de": "Komplexer Railgun-Schadensverstärker",
- "typeName_en-us": "Complex Railgun Damage Amplifer",
- "typeName_es": "Amplificador de daño gauss complejo",
- "typeName_fr": "Amplificateur de dommages de canon à rails complexe",
- "typeName_it": "Amplificatore danni cannone a rotaia complesso",
- "typeName_ja": "複合レールガンダメージ増幅器",
- "typeName_ko": "복합 레일건 피해 증폭기",
- "typeName_ru": "Усложненный усилитель урона для рейлганов",
- "typeName_zh": "Complex Railgun Damage Amplifer",
- "typeNameID": 280067,
- "volume": 0.01
- },
- "355801": {
- "basePrice": 0.0,
- "capacity": 0.0,
- "description_de": "Erhöht die Schadenswirkung von auf Fahrzeugen montierten kleinen Railgun- und Blastergeschützen. Verleiht einen Bonus von 10% auf Schaden durch Hybridgeschütze und eine 5% höhere Feuerrate.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Increases the damage output of vehicle mounted small railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Este módulo aumenta el daño causado por las torretas bláster y de cañón gauss montadas en vehículos. Otorga un 10% de bonificación al daño de las torretas híbrida y un 5% a la cadencia de disparo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Augmente les dommages générés par les petites tourelles de canon à rails et de blaster des véhicules. Accorde 10 % de bonus aux dommages des tourelles hybrides et 5 % à la cadence de tir.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Aumenta il potenziale danni delle torrette piccole di cannoni blaster e cannoni a rotaia montate sui veicoli. Assegna il 10% di bonus danni alla torretta ibrida, e aumenta del 5% la cadenza di fuoco.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "車両に搭載した小型レールガンとブラスタータレットが与えるダメージを増やすモジュール。 ハイブリッドタレットが与えるダメージが10%増加、発射間隔を5%短縮。\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "차량에 탑재되는 소형 레일건 및 블라스터 터렛의 피해량이 증가합니다. 하이브리드 터렛 피해량 10% 증가 및 연사속도 5% 증가
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Увеличивает урон, наносимый малым рейлганом и бластерной турелью, установленными на транспортное средство. Увеличивает на 10% урон, наносимый гибридной турелью, и на 5% - ее скорострельность.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Increases the damage output of vehicle mounted small railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284531,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355801,
- "typeName_de": "Isoliertes LT Stabilisatoren-Array",
- "typeName_en-us": "LT Insulated Stabilizer Array",
- "typeName_es": "Matriz aislante estabilizadora LT",
- "typeName_fr": "Stabilisateur de réseau isolé LT",
- "typeName_it": "Array stabilizzatore isolato LT",
- "typeName_ja": "LT絶縁スタビライザー施設",
- "typeName_ko": "LT 절연 안정 장치",
- "typeName_ru": "НП изолированный стабилизатор батареи",
- "typeName_zh": "LT Insulated Stabilizer Array",
- "typeNameID": 280068,
- "volume": 0.01
- },
- "355802": {
- "basePrice": 3750.0,
- "capacity": 0.0,
- "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Blaster-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones bláster montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de blaster installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone blaster equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのブラスタータレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "모듈 활성화 시 차량용 블라스터의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми гибридными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284532,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355802,
- "typeName_de": "Einfacher Blaster-Schadensverstärker",
- "typeName_en-us": "Basic Blaster Damage Amplifier",
- "typeName_es": "Amplificador de daño bláster básico",
- "typeName_fr": "Amplificateur de dommages de blaster basique",
- "typeName_it": "Amplificatore danno cannone blaster di base",
- "typeName_ja": "基本ブラスターダメージ増幅器",
- "typeName_ko": "기본 블라스터 데미지 증폭기",
- "typeName_ru": "Базовый усилитель урона для бластеров",
- "typeName_zh": "Basic Blaster Damage Amplifier",
- "typeNameID": 280069,
- "volume": 0.01
- },
- "355803": {
- "basePrice": 10050.0,
- "capacity": 0.0,
- "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Blaster-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones bláster montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de blaster installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone blaster equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのブラスタータレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "모듈 활성화 시 차량용 블라스터의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми бластерными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284533,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355803,
- "typeName_de": "Verbesserter Blaster-Schadensverstärker",
- "typeName_en-us": "Enhanced Blaster Damage Amplifier",
- "typeName_es": "Amplificador de daño bláster mejorado",
- "typeName_fr": "Amplificateur de dommages de blaster optimisé",
- "typeName_it": "Amplificatore danni cannone blaster perfezionato",
- "typeName_ja": "強化型ブラスターダメージ増幅器",
- "typeName_ko": "향상된 블라스터 데미지 증폭기",
- "typeName_ru": "Улучшенный усилитель урона для бластеров",
- "typeName_zh": "Enhanced Blaster Damage Amplifier",
- "typeNameID": 280070,
- "volume": 0.01
- },
- "355804": {
- "basePrice": 16440.0,
- "capacity": 0.0,
- "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Blaster-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones bláster montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de blaster installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone blaster equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのブラスタータレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "모듈 활성화 시 차량용 블라스터의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми гибридными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284534,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355804,
- "typeName_de": "Komplexer Blaster-Schadensverstärker",
- "typeName_en-us": "Complex Blaster Damage Amplifier",
- "typeName_es": "Amplificador de daño bláster complejo",
- "typeName_fr": "Amplificateur de dommages de blaster complexe",
- "typeName_it": "Amplificatore danno cannone blaster complesso",
- "typeName_ja": "複合ブラスターダメージ増幅器",
- "typeName_ko": "복합 블라스터 데미지 증폭기",
- "typeName_ru": "Усложненный усилитель урона для бластеров",
- "typeName_zh": "Complex Blaster Damage Amplifier",
- "typeNameID": 280071,
- "volume": 0.01
- },
- "355805": {
- "basePrice": 0.0,
- "capacity": 0.0,
- "description_de": "Erhöht die Schadenswirkung von auf Fahrzeugen montierten großen Railgun- und Blastergeschützen. Verleiht einen Bonus von 10% auf den Schaden von Hybridgeschützen und eine um 5% höhere Feuerrate.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Increases the damage output of vehicle mounted large railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Este módulo aumenta el daño causado por las torretas bláster y de cañón gauss montadas en vehículos. Otorga un 10% de bonificación al daño de las torreras híbrida y un 5% a la cadencia de disparo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Augmente les dommages générés par les grandes tourelles de canon à rails et de blaster des véhicules. Accorde 10 % de bonus aux dommages des tourelles hybrides et 5 % à la cadence de tir.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Aumenta il potenziale danni delle torrette grandi di cannoni blaster e cannoni a rotaia montate sui veicoli. Assegna il 10% di bonus danni alla torretta ibrida, e aumenta del 5% la cadenza di fuoco.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "車両に搭載した大型レールガンとブラスタータレットが与えるダメージを増やすモジュール。 ハイブリッドタレットが与えるダメージが10%増加、発射間隔を5%短縮。\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "차량에 탑재되는 대형 레일건 및 블라스터 터렛의 피해량이 증가합니다. 하이브리드 터렛 피해량 10% 증가 및 연사속도 5% 증가
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Увеличивает урон, наносимый большим рейлганом и бластерной турелью, установленными на транспортное средство. Увеличивает на 10% урон, наносимый гибридной турелью, и на 5% - ее скорострельность.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Increases the damage output of vehicle mounted large railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 281555,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355805,
- "typeName_de": "Isoliertes HT Stabilisatoren-Array",
- "typeName_en-us": "HT Insulated Stabilizer Array",
- "typeName_es": "Matriz aislante estabilizadora HT",
- "typeName_fr": "Stabilisateur de réseau isolé HT",
- "typeName_it": "Array stabilizzatore isolato HT",
- "typeName_ja": "HT絶縁スタビライザー施設",
- "typeName_ko": "HT 절연 안정 장치",
- "typeName_ru": "ВП изолированный стабилизатор батареи",
- "typeName_zh": "HT Insulated Stabilizer Array",
- "typeNameID": 280072,
- "volume": 0.01
- },
- "355807": {
- "basePrice": 5000.0,
- "capacity": 0.0,
- "description_de": "Verbessert die maximale effektive Reichweite des Geschützes.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
- "description_en-us": "Increases turret's maximum effective range.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "description_es": "Incrementa el alcance efectivo máximo de las torretas.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
- "description_fr": "Augmente la portée effective maximum de la tourelle.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
- "description_it": "Aumenta il raggio d'azione effettivo massimo della torretta.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
- "description_ja": "タレットの最大有効射程を増加する\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
- "description_ko": "터렛의 최적사거리가 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
- "description_ru": "Увеличивает максимальную дальность эффективной стрельбы турелей.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
- "description_zh": "Increases turret's maximum effective range.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
- "descriptionID": 284264,
- "groupID": 351121,
- "mass": 0.0,
- "portionSize": 1,
- "published": 0,
- "radius": 1.0,
- "typeID": 355807,
- "typeName_de": "Kalibrierungs-Subsystem",
- "typeName_en-us": "Calibration Subsystem",
- "typeName_es": "Subsistema de calibración",
- "typeName_fr": "Sous-programme de calibrage",
- "typeName_it": "Sottosistema di calibrazione",
- "typeName_ja": "キャリブレーションサブシステム",
- "typeName_ko": "교정치 서브시스템",
- "typeName_ru": "Подсистема калибровки",
- "typeName_zh": "Calibration Subsystem",
- "typeNameID": 280228,
- "volume": 0.01
}
}
\ No newline at end of file
diff --git a/staticdata/fsd_binary/types.4.json b/staticdata/fsd_binary/types.4.json
index ed9d277e9..21014597e 100644
--- a/staticdata/fsd_binary/types.4.json
+++ b/staticdata/fsd_binary/types.4.json
@@ -1,4 +1,376 @@
{
+ "355791": {
+ "basePrice": 17360.0,
+ "capacity": 0.0,
+ "description_de": "Verringert das Aufheizen von Blaster- und Railgun-Geschützen und verlängert somit die effektive Schusszeit vor Überhitzung. Verringert die Hitzebelastung pro Schuss um 14%.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 14%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Reduce el recalentamiento de las torretas de bláster y cañón gauss, incrementando así el tiempo de disparo efectivo. Reduce el calentamiento por disparo en un 14%.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Réduit la surchauffe des tourelles de blasters et de canon à rails, augmentant ainsi le temps de tir avant de surchauffer. Réduit de 14 % la chaleur causée par les tirs.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Riduce l'accumulo di calore delle torrette di cannoni blaster e cannoni a rotaia, consentendo di sparare più a lungo prima del surriscaldamento. Riduce il consumo di calore per colpo del 14%.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "ブラスターやレールガンタレットの発熱を減少し、オーバーヒートまでの射撃持続時間を増やす。1ショット当たりの発熱量を14%削減。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "블라스터와 레일건 터렛의 발열을 감소시켜 과부화를 늦춥니다. 매 공격마다 발열 14% 감소
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Снижает тепловыделение бластерных и рейлганных турелей, тем самым увеличивая время на ведение огня, перед перегревом. Снижает меру нагрева, за выстрел, на 14%.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 14%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284185,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355791,
+ "typeName_de": "Modifizierter extrudierter Kühler",
+ "typeName_en-us": "Modified Extruded Heat Sink",
+ "typeName_es": "Disipador térmico extruido modificado",
+ "typeName_fr": "Dissipateur thermique profilé modifié",
+ "typeName_it": "Dissipatore di calore estruso modificato",
+ "typeName_ja": "改造型押出放熱機",
+ "typeName_ko": "개조된 익스트루드 방열판",
+ "typeName_ru": "Модифицированный формованный теплопоглотитель",
+ "typeName_zh": "Modified Extruded Heat Sink",
+ "typeNameID": 280215,
+ "volume": 0.01
+ },
+ "355792": {
+ "basePrice": 25160.0,
+ "capacity": 0.0,
+ "description_de": "Verringert das Aufheizen von Blaster- und Railgun-Geschützen und verlängert somit die effektive Schusszeit vor Überhitzung. Verringert die Hitzebelastung pro Schuss um 19%.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 19%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Reduce el recalentamiento de las torretas de bláster y cañón gauss, incrementando así el tiempo de disparo efectivo. Reduce el calentamiento por disparo en un 19%.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Réduit la surchauffe des tourelles de blasters et de canon à rails, augmentant ainsi le temps de tir avant de surchauffer. Réduit de 19 % la chaleur causée par les tirs.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Riduce l'accumulo di calore delle torrette di cannoni blaster e cannoni a rotaia, consentendo di sparare più a lungo prima del surriscaldamento. Riduce il consumo di calore per colpo del 19%.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "ブラスターやレールガンタレットの発熱を減少し、オーバーヒートまでの射撃持続時間を増やす。1ショット当たりの発熱量を19%削減。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "블라스터와 레일건 터렛의 발열을 감소시켜 과부화를 늦춥니다. 매 공격마다 발열 19% 감소
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Снижает тепловыделение бластерных и рейлганных турелей, тем самым увеличивая время на ведение огня, перед перегревом. Снижает меру нагрева, за выстрел, на 19%.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 19%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 280179,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355792,
+ "typeName_de": "Belüfteter Kühler",
+ "typeName_en-us": "Vented Heat Sink",
+ "typeName_es": "Disipador térmico ventilado",
+ "typeName_fr": "Dissipateur thermique aéré",
+ "typeName_it": "Dissipatore di calore forato",
+ "typeName_ja": "ベント型放熱機",
+ "typeName_ko": "벤트 방열판",
+ "typeName_ru": "Вентилированный теплопоглотитель",
+ "typeName_zh": "Vented Heat Sink",
+ "typeNameID": 280216,
+ "volume": 0.01
+ },
+ "355793": {
+ "basePrice": 25160.0,
+ "capacity": 0.0,
+ "description_de": "Verringert das Aufheizen von Blaster- und Railgun-Geschützen und verlängert somit die effektive Schusszeit vor Überhitzung. Verringert die Hitzebelastung pro Schuss um 18%.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 18%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Reduce el recalentamiento de las torretas de bláster y cañón gauss, incrementando así el tiempo de fuego efectivo. Reduce el calentamiento por disparo en un 18%.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Réduit la surchauffe des tourelles de canon à rails et des blasters, augmentant ainsi le temps de tir avant de surchauffer. Réduit de 18 % la chaleur causée par les tirs.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Riduce l'accumulo di calore delle torrette di cannoni blaster e cannoni a rotaia, consentendo di sparare più a lungo prima del surriscaldamento. Riduce il consumo di calore per colpo del 18%.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "ブラスターやレールガンタレットの発熱を減少し、オーバーヒートまでの射撃持続時間を増やす。 1ショット当たりの発熱量を18%削減。\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "블라스터와 레일건 터렛의 발열을 감소시켜 과부화를 늦춥니다. 매 공격마다 발열 18% 감소
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Снижает тепловыделение бластерных и рейлганных турелей, тем самым увеличивая время на ведение огня, перед перегревом. Снижает меру нагрева на 18% за выстрел.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Reduces turret heat build-up of blaster and railgun turrets, thereby increasing effective firing time before overheating. Reduces heat cost per shot by 18%.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284188,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355793,
+ "typeName_de": "Kühler 'Helios'",
+ "typeName_en-us": "'Helios' Heat Sink",
+ "typeName_es": "Disipador térmico \"Helios\"",
+ "typeName_fr": "Dissipateur thermique « Helios »",
+ "typeName_it": "Dissipatore di calore \"Helios\"",
+ "typeName_ja": "「ヘリオス」放熱機",
+ "typeName_ko": "'헬리오스' 방열판",
+ "typeName_ru": "Теплопоглотитель 'Helios'",
+ "typeName_zh": "'Helios' Heat Sink",
+ "typeNameID": 280248,
+ "volume": 0.01
+ },
+ "355798": {
+ "basePrice": 3750.0,
+ "capacity": 0.0,
+ "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Railgun-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones gauss montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de canon à rails installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone a rotaia equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのレールガンタレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "모듈 활성화 시 차량용 레일건의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми рейлганными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 281557,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355798,
+ "typeName_de": "Einfacher Railgun-Schadensverstärker",
+ "typeName_en-us": "Basic Railgun Damage Amplifer",
+ "typeName_es": "Amplificador de daño gauss básico",
+ "typeName_fr": "Amplificateur de dommages de canon à rails basique",
+ "typeName_it": "Amplificatore danni cannone a rotaia di base",
+ "typeName_ja": "基本レールガンダメージ増幅器",
+ "typeName_ko": "기본 레일건 피해 증폭기",
+ "typeName_ru": "Базовый усилитель урона для рейлганов",
+ "typeName_zh": "Basic Railgun Damage Amplifer",
+ "typeNameID": 280065,
+ "volume": 0.01
+ },
+ "355799": {
+ "basePrice": 10050.0,
+ "capacity": 0.0,
+ "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Railgun-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones gauss montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de canon à rails installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone a rotaia equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのレールガンタレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "모듈 활성화 시 차량용 레일건의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми рейлганными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284529,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355799,
+ "typeName_de": "Verbesserter Railgun-Schadensverstärker",
+ "typeName_en-us": "Enhanced Railgun Damage Amplifer",
+ "typeName_es": "Amplificador de daño gauss mejorado",
+ "typeName_fr": "Amplificateur de dommages de canon à rails optimisé",
+ "typeName_it": "Amplificatore danni cannone a rotaia perfezionato",
+ "typeName_ja": "強化型レールガンダメージ増幅器",
+ "typeName_ko": "향상된 레일건 피해 증폭기",
+ "typeName_ru": "Улучшенный усилитель урона для рейлганов",
+ "typeName_zh": "Enhanced Railgun Damage Amplifer",
+ "typeNameID": 280066,
+ "volume": 0.01
+ },
+ "355800": {
+ "basePrice": 16440.0,
+ "capacity": 0.0,
+ "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Railgun-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones gauss montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de canon à rails installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone a rotaia equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのレールガンタレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "모듈 활성화 시 차량용 레일건의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми рейлганными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Once activated, this module temporarily increases the damage output of all railgun turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284530,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355800,
+ "typeName_de": "Komplexer Railgun-Schadensverstärker",
+ "typeName_en-us": "Complex Railgun Damage Amplifer",
+ "typeName_es": "Amplificador de daño gauss complejo",
+ "typeName_fr": "Amplificateur de dommages de canon à rails complexe",
+ "typeName_it": "Amplificatore danni cannone a rotaia complesso",
+ "typeName_ja": "複合レールガンダメージ増幅器",
+ "typeName_ko": "복합 레일건 피해 증폭기",
+ "typeName_ru": "Усложненный усилитель урона для рейлганов",
+ "typeName_zh": "Complex Railgun Damage Amplifer",
+ "typeNameID": 280067,
+ "volume": 0.01
+ },
+ "355801": {
+ "basePrice": 0.0,
+ "capacity": 0.0,
+ "description_de": "Erhöht die Schadenswirkung von auf Fahrzeugen montierten kleinen Railgun- und Blastergeschützen. Verleiht einen Bonus von 10% auf Schaden durch Hybridgeschütze und eine 5% höhere Feuerrate.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Increases the damage output of vehicle mounted small railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Este módulo aumenta el daño causado por las torretas bláster y de cañón gauss montadas en vehículos. Otorga un 10% de bonificación al daño de las torretas híbrida y un 5% a la cadencia de disparo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Augmente les dommages générés par les petites tourelles de canon à rails et de blaster des véhicules. Accorde 10 % de bonus aux dommages des tourelles hybrides et 5 % à la cadence de tir.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Aumenta il potenziale danni delle torrette piccole di cannoni blaster e cannoni a rotaia montate sui veicoli. Assegna il 10% di bonus danni alla torretta ibrida, e aumenta del 5% la cadenza di fuoco.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "車両に搭載した小型レールガンとブラスタータレットが与えるダメージを増やすモジュール。 ハイブリッドタレットが与えるダメージが10%増加、発射間隔を5%短縮。\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "차량에 탑재되는 소형 레일건 및 블라스터 터렛의 피해량이 증가합니다. 하이브리드 터렛 피해량 10% 증가 및 연사속도 5% 증가
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Увеличивает урон, наносимый малым рейлганом и бластерной турелью, установленными на транспортное средство. Увеличивает на 10% урон, наносимый гибридной турелью, и на 5% - ее скорострельность.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Increases the damage output of vehicle mounted small railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284531,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355801,
+ "typeName_de": "Isoliertes LT Stabilisatoren-Array",
+ "typeName_en-us": "LT Insulated Stabilizer Array",
+ "typeName_es": "Matriz aislante estabilizadora LT",
+ "typeName_fr": "Stabilisateur de réseau isolé LT",
+ "typeName_it": "Array stabilizzatore isolato LT",
+ "typeName_ja": "LT絶縁スタビライザー施設",
+ "typeName_ko": "LT 절연 안정 장치",
+ "typeName_ru": "НП изолированный стабилизатор батареи",
+ "typeName_zh": "LT Insulated Stabilizer Array",
+ "typeNameID": 280068,
+ "volume": 0.01
+ },
+ "355802": {
+ "basePrice": 3750.0,
+ "capacity": 0.0,
+ "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Blaster-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones bláster montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de blaster installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone blaster equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのブラスタータレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "모듈 활성화 시 차량용 블라스터의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми гибридными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284532,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355802,
+ "typeName_de": "Einfacher Blaster-Schadensverstärker",
+ "typeName_en-us": "Basic Blaster Damage Amplifier",
+ "typeName_es": "Amplificador de daño bláster básico",
+ "typeName_fr": "Amplificateur de dommages de blaster basique",
+ "typeName_it": "Amplificatore danno cannone blaster di base",
+ "typeName_ja": "基本ブラスターダメージ増幅器",
+ "typeName_ko": "기본 블라스터 데미지 증폭기",
+ "typeName_ru": "Базовый усилитель урона для бластеров",
+ "typeName_zh": "Basic Blaster Damage Amplifier",
+ "typeNameID": 280069,
+ "volume": 0.01
+ },
+ "355803": {
+ "basePrice": 10050.0,
+ "capacity": 0.0,
+ "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Blaster-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones bláster montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de blaster installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone blaster equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのブラスタータレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "모듈 활성화 시 차량용 블라스터의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми бластерными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284533,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355803,
+ "typeName_de": "Verbesserter Blaster-Schadensverstärker",
+ "typeName_en-us": "Enhanced Blaster Damage Amplifier",
+ "typeName_es": "Amplificador de daño bláster mejorado",
+ "typeName_fr": "Amplificateur de dommages de blaster optimisé",
+ "typeName_it": "Amplificatore danni cannone blaster perfezionato",
+ "typeName_ja": "強化型ブラスターダメージ増幅器",
+ "typeName_ko": "향상된 블라스터 데미지 증폭기",
+ "typeName_ru": "Улучшенный усилитель урона для бластеров",
+ "typeName_zh": "Enhanced Blaster Damage Amplifier",
+ "typeNameID": 280070,
+ "volume": 0.01
+ },
+ "355804": {
+ "basePrice": 16440.0,
+ "capacity": 0.0,
+ "description_de": "Dieses Modul erhöht im aktivierten Zustand vorübergehend die Schadenswirkung aller Blaster-Geschütze, die an ein Fahrzeug angebracht sind.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Cuando se activa, este módulo aumenta temporalmente el daño de todas las torretas de cañones bláster montadas en un vehículo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Une fois activé, ce module augmente de manière temporaire les dommages générés par les tourelles de blaster installées sur un véhicule.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Una volta attivato, questo modulo aumenta temporaneamente il potenziale danni di tutte le torrette cannone blaster equipaggiate su un veicolo.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "一度起動すると、このモジュールは車両に装備されたすべてのブラスタータレットのダメージ出力を一時的に増やす。注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "모듈 활성화 시 차량용 블라스터의 피해량이 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Будучи активированным, этот модуль временно увеличивает урон, наносимый всеми гибридными турелями, установленными на транспортном средстве.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Once activated, this module temporarily increases the damage output of all blaster turrets fitted to a vehicle.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284534,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355804,
+ "typeName_de": "Komplexer Blaster-Schadensverstärker",
+ "typeName_en-us": "Complex Blaster Damage Amplifier",
+ "typeName_es": "Amplificador de daño bláster complejo",
+ "typeName_fr": "Amplificateur de dommages de blaster complexe",
+ "typeName_it": "Amplificatore danno cannone blaster complesso",
+ "typeName_ja": "複合ブラスターダメージ増幅器",
+ "typeName_ko": "복합 블라스터 데미지 증폭기",
+ "typeName_ru": "Усложненный усилитель урона для бластеров",
+ "typeName_zh": "Complex Blaster Damage Amplifier",
+ "typeNameID": 280071,
+ "volume": 0.01
+ },
+ "355805": {
+ "basePrice": 0.0,
+ "capacity": 0.0,
+ "description_de": "Erhöht die Schadenswirkung von auf Fahrzeugen montierten großen Railgun- und Blastergeschützen. Verleiht einen Bonus von 10% auf den Schaden von Hybridgeschützen und eine um 5% höhere Feuerrate.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Increases the damage output of vehicle mounted large railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Este módulo aumenta el daño causado por las torretas bláster y de cañón gauss montadas en vehículos. Otorga un 10% de bonificación al daño de las torreras híbrida y un 5% a la cadencia de disparo.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Augmente les dommages générés par les grandes tourelles de canon à rails et de blaster des véhicules. Accorde 10 % de bonus aux dommages des tourelles hybrides et 5 % à la cadence de tir.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Aumenta il potenziale danni delle torrette grandi di cannoni blaster e cannoni a rotaia montate sui veicoli. Assegna il 10% di bonus danni alla torretta ibrida, e aumenta del 5% la cadenza di fuoco.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "車両に搭載した大型レールガンとブラスタータレットが与えるダメージを増やすモジュール。 ハイブリッドタレットが与えるダメージが10%増加、発射間隔を5%短縮。\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "차량에 탑재되는 대형 레일건 및 블라스터 터렛의 피해량이 증가합니다. 하이브리드 터렛 피해량 10% 증가 및 연사속도 5% 증가
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Увеличивает урон, наносимый большим рейлганом и бластерной турелью, установленными на транспортное средство. Увеличивает на 10% урон, наносимый гибридной турелью, и на 5% - ее скорострельность.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Increases the damage output of vehicle mounted large railgun and blaster turrets. Grants 10% bonus to hybrid turret damage, and a 5% increase to rate of fire.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 281555,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355805,
+ "typeName_de": "Isoliertes HT Stabilisatoren-Array",
+ "typeName_en-us": "HT Insulated Stabilizer Array",
+ "typeName_es": "Matriz aislante estabilizadora HT",
+ "typeName_fr": "Stabilisateur de réseau isolé HT",
+ "typeName_it": "Array stabilizzatore isolato HT",
+ "typeName_ja": "HT絶縁スタビライザー施設",
+ "typeName_ko": "HT 절연 안정 장치",
+ "typeName_ru": "ВП изолированный стабилизатор батареи",
+ "typeName_zh": "HT Insulated Stabilizer Array",
+ "typeNameID": 280072,
+ "volume": 0.01
+ },
+ "355807": {
+ "basePrice": 5000.0,
+ "capacity": 0.0,
+ "description_de": "Verbessert die maximale effektive Reichweite des Geschützes.\n\nHINWEIS: Für dieses Modul gelten Stapelabzüge; nach dem ersten Modul nimmt die Wirksamkeit jedes weiteren ab, sofern es dieselben Attribute beeinflusst. ",
+ "description_en-us": "Increases turret's maximum effective range.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "description_es": "Incrementa el alcance efectivo máximo de las torretas.\n\nAVISO: a este módulo se le aplican penalizaciones por agrupamiento. Su eficacia se ve reducida por cada módulo del mismo tipo que se monte después del primero. ",
+ "description_fr": "Augmente la portée effective maximum de la tourelle.\n\nREMARQUE : Des pénalités d'accumulation s'appliquent à ce module ; au-delà du premier module, l'efficacité de chaque module supplémentaire qui modifie les mêmes attributs sera réduite. ",
+ "description_it": "Aumenta il raggio d'azione effettivo massimo della torretta.\n\nNOTA: a questo modulo si applicano le penalità da accumulo; l'efficacia di ogni modulo aggiuntivo (dopo il primo) che modifica gli stessi attributi viene ridotta. ",
+ "description_ja": "タレットの最大有効射程を増加する\n\n注:このモジュールはスタッキングペナルティの対象となり、同一のモジュールを複数取り付けると、一つ追加するごとにモジュールの効果が低下する。 ",
+ "description_ko": "터렛의 최적사거리가 증가합니다.
참고: 중첩 페널티가 적용되는 모듈입니다. 동일한 효과를 지닌 모듈을 한 개 이상 장착할 경우 추가 모듈의 효율성이 감소합니다. ",
+ "description_ru": "Увеличивает максимальную дальность эффективной стрельбы турелей.\n\nПРИМЕЧАНИЕ: Для этого модуля действует система нарастающих штрафов; эффективность воздействия каждого последующего модуля (после первого), которая изменяет одинаковые характеристики, снижается. ",
+ "description_zh": "Increases turret's maximum effective range.\r\n\r\nNOTE: Stacking penalties apply to this module; the effectiveness of each additional module (after the first) that alters the same attributes will be reduced. ",
+ "descriptionID": 284264,
+ "groupID": 351121,
+ "mass": 0.0,
+ "portionSize": 1,
+ "published": 0,
+ "radius": 1.0,
+ "typeID": 355807,
+ "typeName_de": "Kalibrierungs-Subsystem",
+ "typeName_en-us": "Calibration Subsystem",
+ "typeName_es": "Subsistema de calibración",
+ "typeName_fr": "Sous-programme de calibrage",
+ "typeName_it": "Sottosistema di calibrazione",
+ "typeName_ja": "キャリブレーションサブシステム",
+ "typeName_ko": "교정치 서브시스템",
+ "typeName_ru": "Подсистема калибровки",
+ "typeName_zh": "Calibration Subsystem",
+ "typeNameID": 280228,
+ "volume": 0.01
+ },
"355808": {
"basePrice": 5000.0,
"capacity": 0.0,
diff --git a/staticdata/phobos/metadata.0.json b/staticdata/phobos/metadata.0.json
index e0d4d8b9c..17064aa8b 100644
--- a/staticdata/phobos/metadata.0.json
+++ b/staticdata/phobos/metadata.0.json
@@ -1,10 +1,10 @@
[
{
"field_name": "client_build",
- "field_value": 2006012
+ "field_value": 2008716
},
{
"field_name": "dump_time",
- "field_value": 1645213841
+ "field_value": 1645641600
}
]
\ No newline at end of file
diff --git a/staticdata/phobos/traits.0.json b/staticdata/phobos/traits.0.json
index 70d63c258..ec96f5b13 100644
--- a/staticdata/phobos/traits.0.json
+++ b/staticdata/phobos/traits.0.json
@@ -20456,7 +20456,7 @@
{
"bonuses": [
{
- "text": "·повышается эффективность действияl амаррских двигательных подсистем"
+ "text": "·повышается эффективность действия амаррских двигательных подсистем"
}
],
"header": "За каждую степень освоения навыка Амаррские двигательные подсистемы:"
@@ -23350,7 +23350,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23384,7 +23384,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23418,7 +23418,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23452,7 +23452,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23486,7 +23486,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23520,7 +23520,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23554,7 +23554,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23588,7 +23588,7 @@
"role": {
"bonuses": [
{
- "number": "на 50%",
+ "number": "на 100%",
"text": "bonus to Shield Extender hitpoints"
},
{
@@ -23622,7 +23622,7 @@
"role": {
"bonuses": [
{
- "number": "50%",
+ "number": "100%",
"text": "bonus to Shield Extender hitpoints"
},
{