Hot combustion gases, modeled as air behaving as an ideal gas, enter a turbine at 145 lbf/in.2, 2700°R with a mass flow rate of 0.32 lb/s and exit at 29 lbf/in.2 and 1620°R. If heat transfer from the turbine to its surroundings occurs at a rate of 20.36 Btu/s, determine the power output of the turbine, in hp. Wcv = i hp

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Hot combustion gases, modeled as air behaving as an ideal gas, enter a turbine at 145 lbf/in.2, 2700°R with a mass flow rate of 0.32 lb/s
and exit at 29 lbf/in.2 and 1620°R.
If heat transfer from the turbine to its surroundings occurs at a rate of 20.36 Btu/s, determine the power output of the turbine, in hp.
W cv =
i
hp
Transcribed Image Text:Hot combustion gases, modeled as air behaving as an ideal gas, enter a turbine at 145 lbf/in.2, 2700°R with a mass flow rate of 0.32 lb/s and exit at 29 lbf/in.2 and 1620°R. If heat transfer from the turbine to its surroundings occurs at a rate of 20.36 Btu/s, determine the power output of the turbine, in hp. W cv = i hp
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