If the net power output of the cycle is 100 MW, and that the working fluid enters the turbine as saturated steam at P= 8.00 MPa and exist the condenser as saturated liquid at P=8kpa Determine: a) the terminal efficiency (%) b) The mass flow rate of the steam , kg/s C) The rate of heat transfer to the working fluid as it passes through the boiler, KW D) The heat rejected by the working fluid as it passes through the condenser, kW. e) The mass flow rate of the cooling water, kg/s. N.B ( the cooling water enters the condenser at 15°C and leaves at 35°C)
If the net power output of the cycle is 100 MW, and that the working fluid enters the turbine as saturated steam at P= 8.00 MPa and exist the condenser as saturated liquid at P=8kpa Determine: a) the terminal efficiency (%) b) The mass flow rate of the steam , kg/s C) The rate of heat transfer to the working fluid as it passes through the boiler, KW D) The heat rejected by the working fluid as it passes through the condenser, kW. e) The mass flow rate of the cooling water, kg/s. N.B ( the cooling water enters the condenser at 15°C and leaves at 35°C)
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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If the net power output of the cycle is 100 MW, and that the working fluid enters the turbine as saturated steam at P= 8.00 MPa and exist the condenser as saturated liquid at P=8kpa
Determine:
a) the terminal efficiency (%)
b) The mass flow rate of the steam , kg/s
C) The rate of heat transfer to the working fluid as it passes through the boiler, KW
D) The heat rejected by the working fluid as it passes through the condenser, kW.
e) The mass flow rate of the cooling water, kg/s. N.B ( the cooling water enters the condenser at 15°C and leaves at 35°C)
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