Thermodynamics-Design a Steam power Cycle
Design a steam power plant cycle that can achieve a cycle thermal efficiency of at least 40% under the conditions that all the turbines have isentropic efficiencies of85% and all pumps have isentropic efficiencies of 60%. Prepare an engineering report describing your design. Your design must include, but is not limited to:
a) Discussion of various cycles attempted to meet the goal as well as the positive and negative aspects of your design.
b) System figures and T-s diagrams with labeled states and temperature, pressure, enthalpy, and entropy information for your design.
c) Sample calculations
Note that the values for v, h, u and s must be taken from 6th edition Thermodynamics (SI units) Cengel and Boles textbook.
If you have the above said textbook, it is question 10-129. All the units must be in SI form.
The cycle chosen should be a regenerative cycle preferably. Please show all steps, and at least compare with another type of cycle first.
I need all the steps, calculations and whatever justification and reasons for selected design.
Note: Please do not make any mistakes with the values of v,u,h and s. Please refer to the steam tables correctly to prevent this from happening.
Homework Answers
Write an Engineering Equation Solver (EES) program to design a reheat Rankine cycle that can achieve a cycle thermal efficiency of at least 40 percent under the conditions that all turbines have...
Write an Engineering Equation Solver (EES) program to design a reheat Rankine cycle that can achieve a cycle thermal efficiency of at least 40 percent under the conditions that all turbines have isentropic efficiencies of 86 percent and all pumps have isentropic efficiencies of 60 percent.
Write an Engineering Equation Solver (EES) program to design a reheat Rankine cycle that can achieve a cycle thermal efficiency of at least 40 percent under the conditions that all turbines have isentropic efficiencies...
Question 3 [30 marks] A reheat Rankine cycle is designed for a steam power plant. Steam...
Question 3 [30 marks] A reheat Rankine cycle is designed for a steam power plant. Steam enters both the high- and low- pressure turbines at 600oC. The maximum and minimum pressures of the cycle are 20 MPa and 20 kPa, respectively. Steam leaves the condenser as a saturated liquid. The moisture content of the steam at the exit of the low-pressure turbine is 4% if the actual expansion process is adiabatic; 8.5% if the ideal expansion process is isentropic. The...
A power plant operates on a regenerative vapor power cycle with one open feedwater heater. Steam...
A power plant operates on a regenerative vapor power cycle with one open feedwater heater. Steam enters the first turbine stage at 12 MPa, 560°C and expands to 1 MPa, where some of the steam is extracted and diverted to the open feedwater heater operating at 1 MPa. The remaining steam expands through the second turbine stage to the condenser pressure of 6 kPa. Saturated liquid exits the open feedwater heater at 1 MPa. The net power output for the...
A power plant operates on a regenerative vapor power cycle with one open feedwater heater. Steam...
A power plant operates on a regenerative vapor power cycle with one open feedwater heater. Steam enters the first turbine stage at 12 MPa, 560°C and expands to 1 MPa, where some of the steam is extracted and diverted to the open feedwater heater operating at 1 MPa. The remaining steam expands through the second turbine stage to the condenser pressure of 28 kPa. Saturated liquid exits the open feedwater heater at 1 MPa. The net power output for the...
2. Consider a combined gas steam power cycle. The gas cycle is a simple Brayton cycle...
2. Consider a combined gas steam power cycle. The gas cycle is a
simple Brayton cycle that has a pressure ratio of 7. Air enters at
9.8 kg / s at the compressor at 15 ° C and 100 kPa, and at the gas
turbine at 950 ° C. The steam cycle is a Rankine cycle with
overheating between the pressure limits of 6 MPa and 10 kPa. The
water vapor is heated in the heat exchanger at a rate...
Spring 2016 5 [CO2] A power plant operates on a regenerative vapor power cycle with two...
Spring 2016 5 [CO2] A power plant operates on a regenerative vapor power cycle with two feedwater heaters. Steam enters he first turbine stage at 12 MPa, 520°C and expands in three stages Between the first and second stages, some steam is diverted to a closed f saturated liquid condensate being pumped ahead into the boiler feedwa closed heater at 12 MPa, 170°C. Steam is extracted between the second and third turbine stages at 0.15 MPa and fed into an...
1. A thermoelectric steam generation plant operates on a Rankine cycle with reheating and two boiler...
1. A thermoelectric steam generation plant operates on a Rankine cycle with reheating and two boiler feed water heaters, one open and one closed. Steam enters the high pressure turbine at P8 and 500 ° C and the low pressure turbine at P10 and 500 ° C. The condenser pressure is 40 kPa. Steam is drawn from the turbine at a pressure P11 for the closed feed water heater and at a pressure P12 for the open feed water heater....
Consider a reheat–regenerative vapor power cycle with two feedwater heaters, a closed feedwater heater and an...
Consider a reheat–regenerative vapor power cycle with two feedwater heaters, a closed feedwater heater and an open feedwater heater. Steam enters the first turbine at 12.0 MPa, 520C and expands to 0.6 MPa. The steam is reheated to 480C before entering the second turbine, where it expands to the condenser pressure of 0.006 MPa. Steam is extracted from the first turbine at 2 MPa and fed to the closed feedwater heater. Feedwater leaves the closed heater at 205C and 8.0...
b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the...
b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400°C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature is raised back to 400°C and supplied to the 2nd stage turbine. Expansion in the 2nd stage turbine is also isentropic to a pressure of 400 kPa, where a fraction (y...
16 Problem #1 (65 pts) Consider the regenerative Rankine Cycle steam power plant below. The isentropic...
16 Problem #1 (65 pts) Consider the regenerative Rankine Cycle steam power plant below. The isentropic efficiency of the turbines is 0.85, and that for the pumps is 0.75. A property table is given which defines some key states to save you time. You do not have to fill in this table. M, Boiler/Superheater TI FWH Reheat PI M2 2 T2 Condenser P2 4 5 (quality) (ft/lbm) S h V P (psia) T (F) State (Btu/lbm- R) 1.5598 (Btu/lbm) 1474.1...
Write an Engineering Equation Solver (EES) program to design a reheat Rankine cycle that can achieve a cycle thermal efficiency of at least 40 percent under the conditions that all turbines have isentropic efficiencies of 86 percent and all pumps have isentropic efficiencies of 60 percent.
Write an Engineering Equation Solver (EES) program to design a reheat Rankine cycle that can achieve a cycle thermal efficiency of at least 40 percent under the conditions that all turbines have isentropic efficiencies...
A power plant operates on a regenerative vapor power cycle with one open feedwater heater. Steam enters the first turbine stage at 12 MPa, 560°C and expands to 1 MPa, where some of the steam is extracted and diverted to the open feedwater heater operating at 1 MPa. The remaining steam expands through the second turbine stage to the condenser pressure of 6 kPa. Saturated liquid exits the open feedwater heater at 1 MPa. The net power output for the...
2. Consider a combined gas steam power cycle. The gas cycle is a
simple Brayton cycle that has a pressure ratio of 7. Air enters at
9.8 kg / s at the compressor at 15 ° C and 100 kPa, and at the gas
turbine at 950 ° C. The steam cycle is a Rankine cycle with
overheating between the pressure limits of 6 MPa and 10 kPa. The
water vapor is heated in the heat exchanger at a rate...
Spring 2016 5 [CO2] A power plant operates on a regenerative vapor power cycle with two feedwater heaters. Steam enters he first turbine stage at 12 MPa, 520°C and expands in three stages Between the first and second stages, some steam is diverted to a closed f saturated liquid condensate being pumped ahead into the boiler feedwa closed heater at 12 MPa, 170°C. Steam is extracted between the second and third turbine stages at 0.15 MPa and fed into an...
b) A steam regenerative cycle, shown below, is delivering 100 MW of power. Steam from the boiler is supplied to the turbine at 8 MPa, 400°C. After expanding isentropically in the 1st stage turbine to a pressure of 1 MPa, steam is taken to the reheater where its temperature is raised back to 400°C and supplied to the 2nd stage turbine. Expansion in the 2nd stage turbine is also isentropic to a pressure of 400 kPa, where a fraction (y...
16 Problem #1 (65 pts) Consider the regenerative Rankine Cycle steam power plant below. The isentropic efficiency of the turbines is 0.85, and that for the pumps is 0.75. A property table is given which defines some key states to save you time. You do not have to fill in this table. M, Boiler/Superheater TI FWH Reheat PI M2 2 T2 Condenser P2 4 5 (quality) (ft/lbm) S h V P (psia) T (F) State (Btu/lbm- R) 1.5598 (Btu/lbm) 1474.1...
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> Hello.. Can i have the details answer.. Tq
Farhana Mon, Apr 26, 2021 9:35 AM