A simple Rankine cycle is implemented in a steam power plant. The working fluid used is water. Water enters the pump at 25 kPa whereas the superheated steam enters the turbine at SMPa. The highest temperature in the Rankine cycle is recorded at 600 °C. Taking the isentropic efficiency of the pump to be at 80% and the isentropic efficiency of the turbine to be 88%, determine the following information if the pump is constantly delivering water at a rate of 5 kg/s. 1) ii) 111) The quality of vapor exiting the turbine Actual power required to operate the pump Actual power generated by the turbine

Elements Of Electromagnetics
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Solve for i, ii, iii

A simple Rankine cycle is implemented in a steam power plant. The working fluid used is
water. Water enters the pump at 25 kPa whereas the superheated steam enters the turbine at
8MPa. The highest temperature in the Rankine cycle is recorded at 600 °C. Taking the
isentropic efficiency of the pump to be at 80% and the isentropic efficiency of the turbine to be
88%, determine the following information if the pump is constantly delivering water at a rate
of 5 kg/s.
1)
The quality of vapor exiting the turbine
11)
111)
iv)
v)
vi)
Actual power required to operate the pump
Actual power generated by the turbine
The rate of which heat is added in the boiler
The thermal efficiency
Construct the diagram of Rankine cycle with reheating function on a T-s diagram
with respect to saturation lines. Refer to Figure 2 for additional information.
Wpumpis
Pump
Boiler
Turbine
Condenser
Wubout
Test
Figure 2 A schematic representation of an Simple Rankine Cycle
Transcribed Image Text:A simple Rankine cycle is implemented in a steam power plant. The working fluid used is water. Water enters the pump at 25 kPa whereas the superheated steam enters the turbine at 8MPa. The highest temperature in the Rankine cycle is recorded at 600 °C. Taking the isentropic efficiency of the pump to be at 80% and the isentropic efficiency of the turbine to be 88%, determine the following information if the pump is constantly delivering water at a rate of 5 kg/s. 1) The quality of vapor exiting the turbine 11) 111) iv) v) vi) Actual power required to operate the pump Actual power generated by the turbine The rate of which heat is added in the boiler The thermal efficiency Construct the diagram of Rankine cycle with reheating function on a T-s diagram with respect to saturation lines. Refer to Figure 2 for additional information. Wpumpis Pump Boiler Turbine Condenser Wubout Test Figure 2 A schematic representation of an Simple Rankine Cycle
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