2. A steam power plant operates at a high pressure and temperature of 1 MPa and 300°C and a low pressure of 15 kPa. The actual work output (Wa) of the turbine is found to be at 600 kJ/kg with steam flowing through it. Determine (a) the turbine inlet enthalpy (h3) and outlet quality (x4s), (b) the ideal enthalpy at the exit of the turbine, (c) the ideal work load (W4s), (d) the thermal efficiency (nt) based on an actual turbine work load of 600 kJ/kg, and (e) the exit actual enthalpy (h4a).

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Please not Ai generated, show all steps in need to understand. Use table vaules thermodynamics engineering aprproch 10th.

TABLES AND CHARTS
R
AR R
TABLE A-5
B
4 R RES BREGS
TABLE A-5
1
TABLE A-6
TABLE A-6
TABLE A-6
TABLE A-6
K
1
Transcribed Image Text:TABLES AND CHARTS R AR R TABLE A-5 B 4 R RES BREGS TABLE A-5 1 TABLE A-6 TABLE A-6 TABLE A-6 TABLE A-6 K 1
2. A steam power plant operates at a high pressure and temperature of 1 MPa and 300°C and a low
pressure of 15 kPa. The actual work output (Wa) of the turbine is found to be at 600 kJ/kg with steam
flowing through it. Determine (a) the turbine inlet enthalpy (h3) and outlet quality (x4s), (b) the ideal
enthalpy at the exit of the turbine, (c) the ideal work load (W4s), (d) the thermal efficiency (nt) based on
an actual turbine work load of 600 kJ/kg, and (e) the exit actual enthalpy (h4a).
Transcribed Image Text:2. A steam power plant operates at a high pressure and temperature of 1 MPa and 300°C and a low pressure of 15 kPa. The actual work output (Wa) of the turbine is found to be at 600 kJ/kg with steam flowing through it. Determine (a) the turbine inlet enthalpy (h3) and outlet quality (x4s), (b) the ideal enthalpy at the exit of the turbine, (c) the ideal work load (W4s), (d) the thermal efficiency (nt) based on an actual turbine work load of 600 kJ/kg, and (e) the exit actual enthalpy (h4a).
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