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In a steam power plant, the condenser pressure is 10 kPa.  The turbine and pump isentropic efficiencies are both 85 %.  Draw the schematic and T-S diagrams. Label the points by setting point 1 at the condenser outlet, point 2 at the pump outlet, point 3 at the boiler outlet, and point 4 at the turbine outlet. Use the label 2a and 4a for the points due to the isentropic efficiency of the pump and turbine, respectively. Use 2 decimal places for the enthalpy and other energies in solving and for the final answers. For the steam quality (x) and entropy (s), use 4 decimal places in solving. For the specific volume, use 6 decimal places. The pressure and the temperature of steam that enters the turbine are 4.5 MPa and 800 oC  Determine the following: (INPUT YOUR ANSWERS ON THE BLANK SPACES PROVIDED.) Enthalpy at point 1 in kJ/kg  =  Enthalpy at point 2 in kJ/kg  =  Enthalpy at point 3 in kJ/kg  =  Enthalpy at point 4 in kJ/kg  =  Actual Enthalpy at point 2a in kJ/kg  =  Actual Enthalpy at point 4a in kJ/kg  =  Actual Work of pump in kJ/kg  =  Actual Work of turbine in kJ/kg =  Actual Heat added in kJ/kg  =  Actual Heat rejected in kJ/kg  =  Actual Net Work in kJ/kg =  Actual Thermal Efficiency in %  =

In a steam power plant, the condenser pressure is 10 kPa.  The turbine and pump isentropic efficiencies are both 85 %.  Draw the schematic and T-S diagrams. Label the points by setting point 1 at the condenser outlet, point 2 at the pump outlet, point 3 at the boiler outlet, and point 4 at the turbine outlet. Use the label 2a and 4a for the points due to the isentropic efficiency of the pump and turbine, respectively. Use 2 decimal places for the enthalpy and other energies in solving and for the final answers. For the steam quality (x) and entropy (s), use 4 decimal places in solving. For the specific volume, use 6 decimal places. The pressure and the temperature of steam that enters the turbine are 4.5 MPa and 800 oC  Determine the following: (INPUT YOUR ANSWERS ON THE BLANK SPACES PROVIDED.) Enthalpy at point 1 in kJ/kg  =  Enthalpy at point 2 in kJ/kg  =  Enthalpy at point 3 in kJ/kg  =  Enthalpy at point 4 in kJ/kg  =  Actual Enthalpy at point 2a in kJ/kg  =  Actual Enthalpy at point 4a in kJ/kg  =  Actual Work of pump in kJ/kg  =  Actual Work of turbine in kJ/kg =  Actual Heat added in kJ/kg  =  Actual Heat rejected in kJ/kg  =  Actual Net Work in kJ/kg =  Actual Thermal Efficiency in %  =

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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In a steam power plant, the condenser pressure is 10 kPa.  The turbine and pump isentropic efficiencies are both 85 %.  Draw the schematic and T-S diagrams. Label the points by setting point 1 at the condenser outlet, point 2 at the pump outlet, point 3 at the boiler outlet, and point 4 at the turbine outlet. Use the label 2a and 4a for the points due to the isentropic efficiency of the pump and turbine, respectively. Use 2 decimal places for the enthalpy and other energies in solving and for the final answers. For the steam quality (x) and entropy (s), use 4 decimal places in solving. For the specific volume, use 6 decimal places.

The pressure and the temperature of steam that enters the turbine are 4.5 MPa and 800 oC 

Determine the following: (INPUT YOUR ANSWERS ON THE BLANK SPACES PROVIDED.)

Enthalpy at point 1 in kJ/kg  = 
Enthalpy at point 2 in kJ/kg  = 
Enthalpy at point 3 in kJ/kg  = 
Enthalpy at point 4 in kJ/kg  = 
Actual Enthalpy at point 2a in kJ/kg  = 
Actual Enthalpy at point 4a in kJ/kg  = 
Actual Work of pump in kJ/kg  = 
Actual Work of turbine in kJ/kg = 
Actual Heat added in kJ/kg  = 
Actual Heat rejected in kJ/kg  = 
Actual Net Work in kJ/kg = 
Actual Thermal Efficiency in %  =

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