P = 10 MPa T= 600 °C =0.2 MPa 2 21 A. For the turbine, for mass flow rate of 3,000 kgħr, caiculate: 1. Ideal work, Wg, in KW 2. Turbine,isentropic efficiency, n 3. Ideal engine thermal efficiency, e B. For the cycle, calculate: 4. Network, Wat in KW 5. Cycle thermal efficiency, e, %24
P = 10 MPa T= 600 °C =0.2 MPa 2 21 A. For the turbine, for mass flow rate of 3,000 kgħr, caiculate: 1. Ideal work, Wg, in KW 2. Turbine,isentropic efficiency, n 3. Ideal engine thermal efficiency, e B. For the cycle, calculate: 4. Network, Wat in KW 5. Cycle thermal efficiency, e, %24
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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![P = 10 MPa
T= 600°C
= 0.2 MPa
2 2
A. For the turbine, for mass flow rate of 3,000 kg/hr, caiculate:
1. Ideal work, WE, in KW
2. Turbine,isentropic efficiency, n
3. Ideal engine thermal efficiency, e
B. For the cycle, calculate:
4. Network, Wast in KW
5. Cycle thermal efficiency, e.
C. For the actual turbine; mechanical efficiency,n= 84% and generator efficiency,
ng- 93%, calculate:
6. Combined steam rate, w
7. Combined heat rate, kHR
8. Brake engine thermal efficiency, e
9. Brake engine efficiency, n](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb2449752-befc-4d43-ac46-fde640d04585%2F10f59e07-62f4-4112-90f6-9213f156f94f%2F0i9s7kf_processed.png&w=3840&q=75)
Transcribed Image Text:P = 10 MPa
T= 600°C
= 0.2 MPa
2 2
A. For the turbine, for mass flow rate of 3,000 kg/hr, caiculate:
1. Ideal work, WE, in KW
2. Turbine,isentropic efficiency, n
3. Ideal engine thermal efficiency, e
B. For the cycle, calculate:
4. Network, Wast in KW
5. Cycle thermal efficiency, e.
C. For the actual turbine; mechanical efficiency,n= 84% and generator efficiency,
ng- 93%, calculate:
6. Combined steam rate, w
7. Combined heat rate, kHR
8. Brake engine thermal efficiency, e
9. Brake engine efficiency, n
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