Engineering, 14.02.2020 21:23 Justinoreilly71
At steady-state, an ideal gas enters a cempressor with a mass flow rate of 10.0 [mol/s]. Thei pressure is 1.00 bar and the inlet temperature is 25.0*C. The gas exits at 25.0 bar and 65.0°C. The ideal gas heat capacity is given by: nlet 4. cnm = 3.60 + 0.500 x 10-3T Where T is in [K]. a) Assuming the compressor is adiabatic, calculate the power (in kW) required. b) in the real process, there is a finite amount of heat transfer. If the compressor operates between the same initial state and final state as in Part A, will the actual power required be greater than, equal to, or less than that calculated in Part A? Explain.
Answers: 3
Engineering, 03.07.2019 14:10
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At steady-state, an ideal gas enters a cempressor with a mass flow rate of 10.0 [mol/s]. Thei pressu...
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