【EVE】
starbase Structures
- Reactor Array
- PG: 250000
- CPU: 20000
- Simple Reactor Array
- 11M
- Required Skill: Anchoring Lv2
- PG: 125000
- CPU: 1500
- A simple reaction produces 200m3/hour
- Moon Harvesting Array
- 4M
- PG: 10000
- CPU: 500
- Moon Harvesting Array ii
- 10M
- PG: 20000
- CPU: 1000
- Silos
- 10M
- PG: 50000
- CPU: 500
- capacity: 20000 m3
- Coupling Array
- 2.25M
- PG: 10000
- CPU: 155
- 1500m3
- General Storage <- Biocemical用らしい。が、Siloと説明が同じなんだよなぁ。
- 7.5M isk
- PG: 50000
- CPU: 250
- capacity: 20000 m3
- Mobile Lab
- 90M ISK
- PG: 100000
- CPU: 500
- capacity: 25000
- Ship Maintenance Array
- 17M
- small blaster battery
- PG: 56250
- CPU: 0
- Optimal: 10 km
- small railgun battery
- PG: 90000
- CPU:0
- Optimal: 150 km
- warp disruption battery
- PG: 100000
- CPU: 50
- warp scramble: 150 km
- stasis webification battery
- PG: 50000
- CPU: 25
- Optimal: 150 km
Control Tower
Amarr
- 50% bonus to Energy Sentry Optimal Range
- 25% bonus to Energy Sentry Damage
- 50% bonus to Silo Cargo Capacity
- PG: 1250000
- CPU: 1375
- PG: 2500000
- CPU: 2750
Gallente
- 25% bonus to Hybrid Sentry Damage
- 100% bonus to Silo Cargo Capacity
- 115M
- PG: 937500
- CPU: 1688
- 200M
- PG: 1875000
- CPU: 3375
■ 構成案
Smallで月掘り
- Gallente Control Tower Small
- Harvester x 1
- Silo x 1
- small railgun battery x 3
- warp disruption battery x 3
- stasis webification battery x 2
- (Mobile Lab x 1 )
- PG: (+ 10000 50000 270000 300000 100000 ) 730000 / 937500
- CPU: (+ 500 500 0 75 100) 1150 / 1688
small でHarverster x 2構成
- Gallente Control Tower Small
- Harvester x 2
- coupling array x 2
- PG: (+ 10000 10000 10000 100000 ) 40000 / 937500
- CPU: (+ 500 500 155 155) 1310 / 1688
Cobaltだと0.4m3/unit、 atmospheric gasesだと0.3m3/unit。
100Unit/hourだとすると、Cobaltでも40m3/hour, 3000を埋めるのに75時間=3日とちょい。
Siloじゃなくてこれで十分かも。
派生
- Gallente Control Tower Small
- Harvester x 2
- coupling array x 1
- Silo x1
- Large Railgun x2
- Medium Blaster x 1
- Warp scramble x 1
- PG: 937500 / 937500
- CPU: 1680 / 1688
Harvester ii 構成
- Gallente Control Tower Medium
- Harvester ii x 2
- Silo x 2
- PG: (+ 20000 20000 50000 50000) 140000 / 1875000
- CPU: (+ 1000 1000 500 500) 3000 / 3375
Simple Reactionが一回でできるRaw Materialが取れるいい月があった場合
- Gallente Control Tower Medium
- Harvester x 2
- Coupling Array x 2
- Simple Reactor x 1
- Silo x 1
- ship maintenance array (CPU:0)
- small railgun battery x 3 (150km CPU:0)
- medium railgun battery x 5 (150km CPU:0)
- warp scrambling battery(75km CPU:25)
- stasis webification battery (150km CPU:25)
Harvester - coupling array + | +-- Simple Reactor -> Silo | Harvester - coupling array +
- PG: (+ 10000 10000 125000 50000) 195000 / 1875000
- CPU: (+ 500 500 155 155 1500 500) 3310 / 3375
- ISK: (+ 200 4 4 2.25 2.25 11 10) 233.5M ISK
■ 売り上げ予測
ひとつだけRaw Materialが取れる場合
JITAでのBuy orderを見てみると、- Atmospheric Gases: 50.00
- Evaporate Deposits: ??
- Hydrocarbons: 80.00
- Silicates (size: 0.2 m^3): 363
- Cobalt (size: 0.4 m^3): 750
- Scandium 0.4m3: 280
- Titanium 0.4m3: 860
- Tungsten 0.4m3: 100
- 363 * 100 * 24 = 871200 = 0.87 M ISK/day
- 80 * 100 * 24 = 192000 = 0.192 M ISK/day
- 750 * 100 * 24 = 1800000 = 1.8 M ISK/day
あるいはIceを自分で取るか。
Simple Reactionが行えた場合
EVE-central でいくつかの値段を調べてみる。- Ceramic Powder : 500 ISK
- Silicon Diborite : 600 ISK
- Carbon Polymers: 400 ISK
- (* 500 200 24) = 2400000 = 2.4M ISK/day
やっぱりMoon Harestingだけでは儲からないのかな?
あるいは、やっぱりレア度が高いRaw Materialでないとだめなのかな。
■ データ
Raw Materlials
レア度順1. Gasses: Atmospheric Gases, Evaporate Deposits, Hydrocarbons, Silicates
2. Rarity 8 metals: Cobalt, Scandium, Titanium, Tungsten
3. Rarity 16 metals: Cadmium, Vanadium, Chromium, Platinum
4. Rarity 32 metals: Ceasium, Technetium, Hafnium, Mercury
5. Rarity 64 metals: Promethium, Dysprosium, Neodymium, Thulium
Reaction List
Reaction | Resources | Resources | Products |
---|---|---|---|
Caesarium Cadmide Reaction | Caesium | Cadmium | Caesarium Cadmide |
Crystalite Alloy Reaction | Cadmium | Cobalt | Crystallite Alloy |
Dysporite Reaction | Dysprosium | Mercury | Dysporite |
Fernite Alloy Reaction | Vanadium | Scandium | Fernite Alloy |
Ferrofluid Reaction | Dysprosium | Hafnium | Ferrofluid |
Fluxed Condensates Reaction | Thulium | Neodymium | Fluxed Condensates |
Hexite Reaction | Platinum | Chromium | Hexite |
Hyperflurite Reaction | Promethium | Vanadium | Hyperflurite |
Neo Mercurite Reaction | Neodymium | Mercury | Neo Mercurite |
Platinum Technite Reaction | Technetium | Platinum | Platinum Technite |
Prometium Reaction | Promethium | Cadmium | Prometium |
Rolled Tungsten Alloy Reaction | Platinum | Tungsten | Rolled Tungsten Alloy |
Solerium Reaction | Caesium | Chromium | Solerium |
Titanium Cromide Reaction | Chromium | Titanium | Titanium Chromide |
Vanadium Hafnite Reaction | Hafnium | Vanadium | Vanadium Hafnite |
Blue Resources
Reaction | Resources | Resources | Products |
---|---|---|---|
Sulfuric Acid Reaction | Evaporite Deposits | Atmospheric Gases | Sulfuric Acid |
Carbon Polymers Reaction | Silicates | Hydrocarbons | Carbon Polymers |
Ceramic Powder Reaction | Silicates | Evaporite Deposits | Ceramic Powder |
Silcon Diborite Reaction | Silicates | Evaporite Deposits | Silicon Diborite |
■ Complex Reaction
Reaction | Resources | Resources | Resources | Resources | Products |
---|---|---|---|---|---|
Crystalline Carbonide Reaction | Carbon Polymers | Crystallite Alloy | Crystalline Carbonide | ||
Fermionic Condensates Reaction | Prometium | Fluxed Condensates | Dysporite | Caesarium Cadmide | Fermionic Condensates |
Fernite Carbide Reaction | Ceramic Powder | Fernite Alloy | Fernite Carbide | ||
Ferrogel Reaction | Prometium | Ferrofluid | Hyperflurite | Hexite | Ferrogel |
Fulleride Reaction | Platinum Technite | Carbon Polymers | Fullerides | ||
Hypersynaptic Fibers Reaction | Vanadium Hafnite | Dysporite | Solerium | Hypersynaptic Fibers | |
Nanotransistors Reaction | Neo Mercurite | Platinum Technite | Sulfuric Acid | Nanotransistors | |
Phenolic Composites Reaction | Vanadium Hafnite | Caesarium Cadmide | Silicon Diborite | Phenolic Composites | |
Sylramic Fibers Reaction | Hexite | Ceramic Powder | Sylramic Fibers | ||
Titanium Carbide Reaction | Silicon Diborite | Titanium Chromide | Titanium Carbide | ||
Tungsten Carbide Reaction | Sulfuric Acid | Rolled Tungsten Alloy | Tungsten Carbide |
1: Okome 『おぉ・・衛星資源には明確なランク分けがあったんですね 知らなかった(;・∀・) 参考にさせて頂きます!』 (2008/07/08 17:38)