Difference between revisions of "Generator"
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== Efficiency == | == Efficiency == | ||
− | When converting electricity into shaft power, only | + | When converting electricity into shaft power, only 75% of the power actually goes into creating motion. This is a huge loss, and should be avoided if possible. The exception is to help spin up your turbines to either reach better efficiencies, or to fire a gas turbine and produce power more efficiently. It may be a loss on the short term, but a self-sustaining gas/steam turbine is far more efficient in the long term. |
--TODO find and post information about conversion from shaft power to electrical power | --TODO find and post information about conversion from shaft power to electrical power |
Revision as of 18:59, 26 April 2020
Block type: | Single |
Powered by: | Shaft Power |
Requirements for operation: | Gas_turbine, Steam_turbine, or another Generator |
Stackable: | Yes (64) |
Usage
The generator works almost exactly the same way as the heat turbine does, only it converts the motion from a rotating shaft into electricity rather than heat moving through a turbine. It also has the ability to convert back, to keep the voltage and rotation speed in check. If possible, avoid allowing electricity to pass back into the generator unless a spin-up is intended since dramatic losses will occur.
lights
The generator has lights along the side.
- Red: generator is drawing power
- Green: Generator is providing power.
Efficiency
When converting electricity into shaft power, only 75% of the power actually goes into creating motion. This is a huge loss, and should be avoided if possible. The exception is to help spin up your turbines to either reach better efficiencies, or to fire a gas turbine and produce power more efficiently. It may be a loss on the short term, but a self-sustaining gas/steam turbine is far more efficient in the long term.
--TODO find and post information about conversion from shaft power to electrical power