EVE diary

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

Small

• PG: 1250000
• CPU: 1375

Mid

• PG: 2500000
• CPU: 2750

Gallente

• 25% bonus to Hybrid Sentry Damage
• 100% bonus to Silo Cargo Capacity

Small

• 115M
• PG: 937500
• CPU: 1688

Mid

• 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

Coupling Arrayでも1500m3ある。Galの効果で2倍で、3000m3。
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

Siloで容量が必要なMaterialを集めて、必要でないMaterialはCoupling Arrayへ。

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

iiなのでiより倍だけど、これで黒字になるかどうかは微妙だな。

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

Cost: 4.43M/day, 133M/month

■ 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

silicates

• 363 * 100 * 24 = 871200 = 0.87 M ISK/day

Hydrocarbons

• 80 * 100 * 24 = 192000 = 0.192 M ISK/day

Cobalts

• 750 * 100 * 24 = 1800000 = 1.8 M ISK/day

smallだと維持費で2Mぐらい使うので、cobaltぐらいないと赤字。
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

MidなPOSだと4.4M/dayは維持費がかかるので、これでも赤字だ。
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

■ 参考

• MyPos
  • http://www.cassandraslight.com/mypos.htm