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Steam: Difference between revisions

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The amount of energy contained in steam is linearly proportional to it's temperature (minus 15°C ambient temperature). The energy storage of steam is exactly ''200 Joule / unit / degree Celsius'', so for every degree increase in temperature of a single unit of fluid requires exactly 200 Joules.
The amount of energy contained in steam is linearly proportional to it's temperature (minus 15°C ambient temperature). The energy storage of steam is exactly ''200 Joule / unit / degree Celsius'', so for every degree increase in temperature of a single unit of fluid requires exactly 200 Joules.


In all cases, steam produced in boilers is 165°C and steam from heat exchangers is 500°C. This higher temperature equates to a higher energy density of the same number of units of steam, meaning: higher temperature, more energy per volume. Steam suffers no thermal losses sitting or flowing through [[pipe]]s or [[storage tank]]s, the energy put into water to create steam is the same amount of energy you get back out from it since both steam engines and turbines are 100% efficient. (Note: a boiler is only 50% efficient at generating steam!)
In all cases, steam produced in boilers is 165°C and steam from heat exchangers is 500°C. This higher temperature equates to a higher energy density of the same number of units of steam, meaning: higher temperature, more energy per volume. Steam suffers no thermal losses sitting or flowing through [[pipe]]s or [[storage tank]]s, the energy put into water to create steam is the same amount of energy you get back out from it since both steam engines and turbines are 100% efficient.


For example, a storage tank which holds 25000 units of Steam at 165°C contains...
For example, a storage tank which holds 25000 units of Steam at 165°C contains...

Revision as of 14:15, 5 March 2019

Steam.png
Steam

Steam fluid.png

Prototype type

fluid

Internal name

steam

Produced by

Boiler.png
Heat exchanger.png
Chemical plant.png

Consumed by

Steam engine.png
Steam turbine.png
Coal liquefaction.png
Steam condensation.png

Steam is a gas created by heating water in a boiler or heat exchanger. After being distributed via pipes, steam can be used to generate electricity via steam engines and steam turbines. Steam is also used in coal liquefaction in oil refineries. Since steam is a fluid, it can be stored in a storage tank.

Power generation

The amount of energy contained in steam is linearly proportional to it's temperature (minus 15°C ambient temperature). The energy storage of steam is exactly 200 Joule / unit / degree Celsius, so for every degree increase in temperature of a single unit of fluid requires exactly 200 Joules.

In all cases, steam produced in boilers is 165°C and steam from heat exchangers is 500°C. This higher temperature equates to a higher energy density of the same number of units of steam, meaning: higher temperature, more energy per volume. Steam suffers no thermal losses sitting or flowing through pipes or storage tanks, the energy put into water to create steam is the same amount of energy you get back out from it since both steam engines and turbines are 100% efficient.

For example, a storage tank which holds 25000 units of Steam at 165°C contains...

(200 Joule / unit / Celsius) * 25000 units * (165°C-15°C) = 750 000 000 joules = 750 MJ 

A storage tank holding 25000 units of Steam at 500°C thus contains 2.425 gigajoules of energy, a surprisingly large amount equal to 485 fully charged accumulators!

 (200 Joule / unit / Celsius) * 25000 units * (500°C-15°C) = 2 425 000 000 joules = 2.425 GJ

If the temperature of the steam is lower than the steam engine or turbine can handle, then the power output will be lower than optimal, but no energy will be wasted. However, if the temperature of the steam exceeds the maximum temperature of the steam engine or turbine, then the power output is capped at maximum, and the extra energy in the steam is wasted. Other than this difference, either steam engines or turbines can be used to generate power off of steam from any source.

Trivia

  • The fill meter on steam storage tanks fills from the top instead of from the bottom.

History

  • 0.15.10:
    • Introduced as separate fluid. Previously it counted as Water, with a >100 temperature.

See Also