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An isentropic pump takes 2 kg/s of saturated liquid water at 150 kPa and pumps it to 10 MPa. Make and list all standard assumptions and list any info used from property tables a)Draw this process on a T-s diagram assuming water is compressible. Please include the vapor dome and appropriate isobars. b)Calculate the quality of water at the inlet and outlet of the pump assuming water is compressible. c)Calculate the power consumed by the pumpin kW. d)Assuming water is incompressible,what is the temperature of the water exiting the pump?

An isentropic pump takes 2 kg/s of saturated liquid water at 150 kPa and pumps it to 10 MPa. Make and list all standard assumptions and list any info used from property tables a)Draw this process on a T-s diagram assuming water is compressible. Please include the vapor dome and appropriate isobars. b)Calculate the quality of water at the inlet and outlet of the pump assuming water is compressible. c)Calculate the power consumed by the pumpin kW. d)Assuming water is incompressible,what is the temperature of the water exiting the pump?

Elements Of Electromagnetics

Elements Of Electromagnetics

7th Edition

ISBN: 9780190698614

Author: Sadiku, Matthew N. O.

Publisher: Oxford University Press

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Question

An isentropic pump takes 2 kg/s of saturated liquid water at 150 kPa and pumps it to 10 MPa. Make and list all standard assumptions and list any info used from property tables

a)Draw this process on a T-s diagram assuming water is compressible. Please include the vapor dome and appropriate isobars.

b)Calculate the quality of water at the inlet and outlet of the pump assuming water is compressible.

c)Calculate the power consumed by the pumpin kW.

d)Assuming water is incompressible,what is the temperature of the water exiting the pump?

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Steam is expanded isentropically in a turbine from 800 kPa, 250 °C to 200 kPa. How much work is done in this process per kg of water?
2. A steady stream of steam passes through a turbine. The steam inlet conditions are 10MPa, 450°C and 80m/s and at the outlet they are 10kPa, 92% quality and 50m/s. The mass flow of the steam is 12 kg/s. Determine a) the change in kinetic energy, b) the power developed by the turbine, and c) the area of the turbine inlet.
3. Air enters a steady flow compressor at 100 kPa, 27EC and exits at 800 kPa. The process is polytropic with n = 1.3. Determine the specific work and the heat transfer in kJ/kg. Note that this is NOTan adiabatic compressor.

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