You have to consult tables which give the properties of water and steam (commonly called Steam Tables). You have to calculate the total enthalpy of the steam as delivered, and subtract the enthalpy of the returned condensate (if returned) or of the water as it enters the boiler. In modern steam tables this will be in kilojoules per kilogram. You can multiply by mass to get total energy. To convert to kilowatt-hours, note that 1 kWh = 3.6 MJ. Various organizations have published steam tables in the past. The one published by the International Association for the Properties of Water and Steam is the one to use, particularly the 1997 formulation for industrial application. There are some free caclulators online which claim compliance to the algorithms, but I can't vouch for any of them. It is not straightforward and you may want the services of a competent steam engineer (that leaves me out. I may be able to hack my way through, but I am not "qualified" in this area.)
1 mwh = 1000 kwh hence 4 mwh = 4000 kwh
1 million kWh = 1 GWh, so 927.7 million kWh = 927.7 GWh.
The answer to this question is zero. There is no kWh given.
To find kWh a time frame has to be given. That is what the h in kWh stands for.
I'm currently benchmarking a number of plants in my company which produce steam for downstream processing. What is a typical kWh/kg of steam ratio I could set as a best practice target? Thanks Paul
Steam consumption for 1 ton of acid production is 0.35 t/t of acid which is 0.35 x 3 = 1.05 t/t of sulfur melting. Steam pressure = 8 Kg/cm2g
The efficiency of a steam turbine is just the ratio of power out to power in, but if you want to be able to calculate it from the basic mechanical design, this is a specialised topic. In the link below is a general description of steam turbines, in the references and additional reading list there are some references that may help you.
KWH
1 unit = 1 KW X 1 Hour so it means that unit of current can be converted into kWh by multiplying it by the watt and t time taken (in hours).
Granville T. Woods invented the Steam Boiler Furnace
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You have to consult tables which give the properties of water and steam (commonly called Steam Tables). You have to calculate the total enthalpy of the steam as delivered, and subtract the enthalpy of the returned condensate (if returned) or of the water as it enters the boiler. In modern steam tables this will be in kilojoules per kilogram. You can multiply by mass to get total energy. To convert to kilowatt-hours, note that 1 kWh = 3.6 MJ. Various organizations have published steam tables in the past. The one published by the International Association for the Properties of Water and Steam is the one to use, particularly the 1997 formulation for industrial application. There are some free caclulators online which claim compliance to the algorithms, but I can't vouch for any of them. It is not straightforward and you may want the services of a competent steam engineer (that leaves me out. I may be able to hack my way through, but I am not "qualified" in this area.)
1 mwh = 1000 kwh hence 4 mwh = 4000 kwh
it used t caryy coal ate front of it and that coal helped the steam engine run.
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