Power production/Optimal ratios
This is about how many Boilers, Pumps, Steam engines and also ratios of Solar panel and Basic accumulator (and more).
Hot liquids
Situation -> | One steam engine | One pump | Full pipe |
---|---|---|---|
Steam engines | 1 | 10 | 21 ? (depends also on length of the pipes) |
Boilers | 2 | 14 | 28 ? |
Pumps | 1 | 1 | 3 |
Each steam engine needs roughly 1.31 boilers when running at full capacity.
One offshore pump can satisfy 14 Boilers and 10 steam engines. 13 boilers will make the job also, but this tends to have problems to raise the temp after coal shortness or other accidents (Biters love to attack the boilers).
To fully satisfy a pipe you need 3 pumps. But with this setup you will find, that the length of your pipe-setup will influence this too much. This is definitely not a beginner strategy.
See also Hot Liquids and Liquids/Pipe physics.
Hot liquids in tanks
Hot water from boilers can also be stored in storage tanks and used by extra steam engines during peak times or during night (if solar is in place). This energy storage technique can be used instead of or in addition to accumulators.
See about storing of hot liquids how to use that.
Solar/Accu
Optimal ratio
The optimal ratio is 0.84 accumulators per solar panel.
This is taken from Accumulator / Solar panel ratio.
Perfect placing
- Big solar farm: About the perfect placing of panels