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Burning Fire Ice directly in the Thermal Power Station is more efficient than converting it to Hydrogen or Hydrogen Fuel Rods. So unless you need extra graphene from Fire Ice, this is highly discouraged. | Burning Fire Ice directly in the Thermal Power Station is more efficient than converting it to Hydrogen or Hydrogen Fuel Rods. So unless you need extra graphene from Fire Ice, this is highly discouraged. | ||
[[ | == Production overview == | ||
{| class="wikitable" | |||
|+ | |||
!Source | |||
!Explanation | |||
!Build cost | |||
!Upkeep cost | |||
|- | |||
|[[File:Icon_Coal.png|link=Coal]] | |||
|Mining Coal on deceint sized Coal Vein may give you around 18 coal/second, requiring 18 Power Stations to burn and producing 36MW net power. | |||
Since low power in grid will slow down the miners, it may be better to use seperate power network for miners | |||
|3000 ores / 100 MW | |||
|Uses 50 Coal from Coal Vein per 100MW | |||
Each 500k Coal Vein will last for 8 hours at 18 coal/s | |||
|- | |||
|[[File:Icon_Solar_Panel.png|link=Solar Panel]] | |||
| | |||
Solar is decent early/mid-game power source, easily scaleable to ~500MW on a planet. | |||
Most obvious layouts are building circles on both poles or 4-wide stip en equator. | |||
By standing on the pole and with using god-build-mode(Settings/Gameplay) you may place Solar Panels at 5/second (~3sec per 15-long row). | |||
To build Solar Panels on poles without overlaying errors while building a long row, place first panel 2 tiles from pole. | |||
| | |||
Producing Silicon from Stone: 55000 ores / 100MW | |||
A big 600k Stone vein will give you a full 1 GW, which is more then enough for a single planet | |||
Producing from Silicon: 7500 ores / 100MW | |||
|Free | |||
|- | |||
|[[File:Icon_Deuteron_Fuel_Rod.png|link=Deuteron_Fuel_Rod]] | |||
|A way to send fuel to other stars. | |||
| | |||
Production, Oil Hydrogen/Fractionator: 1500 ores / 100MW | |||
Production, Gas Giant Hydrogen, Particle Collider: 12000 ores / 100MW | |||
Production, Gas Giant Deuterium : 80000 ores / 100MW (10 Orbital collectors) | |||
Consumption (MF Power Plants): 7000 ores / 100MW | |||
| | |||
Production, Oil Hydrogen/Fractionator: 1.5 oil, 6 ores, 20MJ / 100MW | |||
Production, Gas Giant Hydrogen, Particle Collider: 6 ores, 27MJ / 100MJ | |||
Production, Gas Giant Deuterium : 6 ores, 9MJ / 100MW | |||
|- | |||
|[[File:Icon_Solar_Sail.png|link=Solar_Sail]] | |||
|Dyson Swarm | |||
One Sail costs 4.5 ores, 1 oil, 12MJ | |||
With no research one Sail gives total of 52MJ (32kw*5400s*(100%-70%)) Dyson Swarm power. | |||
With only Yellow Cube researches, each Sail produces a total of 127MJ (32kw*(5400s+3*900s)*(100%-70%*0.9^3)) | |||
| | |||
| ~ one Sail / 100MJ | |||
|- | |||
|[[File:Icon_Small_Carrier_Rocket.png|link=Small_Carrier_Rocket]] | |||
| | |||
|Shell structure, using rare ores: 350000 ores and 5000MJ per additional 100MW (on 1L sun) | |||
Shell panel, using rare ores: 8500 ores and 170MW per additional 100MW (in 1L sun) | |||
|- | |||
|[[File:Icon_Full_Accumulator.png|link=Full_Accumulator]] | |||
| | |||
|18400 ores and 24400MJ per 100MW transfered | |||
|Used only for energy transfer, so 100MJ / 100MJ | |||
|- | |||
|[[File:Icon_Deuterium.png|link=Deuterium]] | |||
|- | |||
|[[File:Icon_Antimatter_Fuel_Rod.png|link=Antimatter_Fuel_Rod]] | |||
| | |||
|0.6 ores and 2MW / 100MW | |||
|- | |||
|} | |||