Steam turbine: Difference between revisions

Steam turbine

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Recipe
3 + 50 + 50 + 20 → 1
Total raw
38 + 50 + 120
Map color
Fluid storage volume	200
Health	300 390 480 570 750
Resistances	Fire: 0/70%
Stack size	10
Dimensions	3×5
Power output	5.82 7.57 9.31 11.06 14.55 MW
Maximum temperature	500 °C
Fluid consumption	60/s 78/s 96/s 114/s 150/s steam
Mining time	0.3
Prototype type	generator
Internal name	steam-turbine
Required technologies
Produced by

The steam turbine consumes steam to create electric energy. It is usually used together with heat exchangers and a nuclear reactor.

While designed for the 500°C steam of a nuclear reactor, turbines can still be connected to boilers for use in conventional 165°C steam power, but the actual power production is based on the temperature of the steam, not the building itself. Unfortunately, this means that using a steam turbine is no more fuel-efficient than using a steam engine, so it's generally not recommended to use the much more expensive turbines with boiler steam. To its credit, the turbine does have double the throughput of a steam engine (it uses 60 steam and outputs 1.8MW of power) so it can still be useful to save space, especially in large power systems.

Power output

Each Steam turbine takes a maximum input of 60 units of 500°C steam per second and outputs 5.82MW of electricity; the 5.8MW listed on the tooltip is rounded.

• Heat exchanger heats 15°C water to 500°C steam;
• It takes 0.2kJ of burner energy to raise 1 water 1°C;
• Steam is consumed by steam turbines at a rate of 60 water/s;
• (500 - 15) × 0.2 × 60 = 5820kW, or 5.82MW.

History

• 0.15.0:
  • Introduced

See also

• Nuclear power
  • Heat pipe
• Nuclear ratios