Please use property tables. Thank you Steam enters the high-pressure turbine of an ideal reheat Rankine cycle at 10 MPa and 500°C. The low-pressure turbine inlet admits steam at 1 Mpa. Assume that the pump inlet is a saturated liquid at 10 kPa and that 80 MW of power is produced overall. 1. Using the property tables for both the inlet and outlet of the pump, determine the enthalpy in kJ/kg of the pump outlet. Report your answer to two decimal places using rounding. 2. Report the amount of heat added, in kJ/kg, in the boiler before the high-pressure turbine to one decimal place using rounding. 3. Report the amount of work produced in the high-pressure turbine, in kJ/kg, to one decimal place using rounding.
Please use property tables. Thank you Steam enters the high-pressure turbine of an ideal reheat Rankine cycle at 10 MPa and 500°C. The low-pressure turbine inlet admits steam at 1 Mpa. Assume that the pump inlet is a saturated liquid at 10 kPa and that 80 MW of power is produced overall. 1. Using the property tables for both the inlet and outlet of the pump, determine the enthalpy in kJ/kg of the pump outlet. Report your answer to two decimal places using rounding. 2. Report the amount of heat added, in kJ/kg, in the boiler before the high-pressure turbine to one decimal place using rounding. 3. Report the amount of work produced in the high-pressure turbine, in kJ/kg, to one decimal place using rounding.
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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Please use property tables. Thank you
Steam enters the high-pressure turbine of an ideal reheat Rankine cycle at 10 MPa and 500°C. The low-pressure turbine inlet admits steam at 1 Mpa. Assume that the pump inlet is a saturated liquid at 10 kPa and that 80 MW of power is produced overall.
1. Using the property tables for both the inlet and outlet of the pump, determine the enthalpy in kJ/kg of the pump outlet. Report your answer to two decimal places using rounding.
2. Report the amount of heat added, in kJ/kg, in the boiler before the high-pressure turbine to one decimal place using rounding.
3. Report the amount of work produced in the high-pressure turbine, in kJ/kg, to one decimal place using rounding.
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Step 1: Bartleby QnA guideline
VIEWStep 2: Determining the given variables and Drawing T-s diagram
VIEWStep 3: Finding enthalpy at pump outlet
VIEWStep 4: Finding enthalpy & entropy at boiler exit state
VIEWStep 5: Finding heat added in the boiler
VIEWStep 6: Finding state of point 2 in T-s diagram
VIEWStep 7: Finding work done by high pressure turbine
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