A steam power plant operates on an ideal regenerative Rankine cycle. Steam enters the turbine at 6 MPa and 450°C and is condensed in the condenser at 20 kPa. Steam is extracted from the turbine at 0.5 MPa to heat the feedwater in closed feedwater heater. Assume that the feedwater leaves the heater at the condensation temperature of the extracted steam and that the extracted steam leaves the heater as a saturated liquid and is pumped to the line carrying the feedwater. Show the cycle on a T-s diagram, and determine: (a) the net work output per kg of steam flowing through the boiler, and (b) the thermal efficiency of the cycle.
A steam power plant operates on an ideal regenerative Rankine cycle. Steam enters the turbine at 6 MPa and 450°C and is condensed in the condenser at 20 kPa. Steam is extracted from the turbine at 0.5 MPa to heat the feedwater in closed feedwater heater. Assume that the feedwater leaves the heater at the condensation temperature of the extracted steam and that the extracted steam leaves the heater as a saturated liquid and is pumped to the line carrying the feedwater. Show the cycle on a T-s diagram, and determine: (a) the net work output per kg of steam flowing through the boiler, and (b) the thermal efficiency of the cycle.
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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Question
A steam power plant operates on an ideal regenerative Rankine
cycle. Steam enters the turbine at 6 MPa and 450°C and is condensed
in the condenser at 20 kPa. Steam is extracted from the turbine at 0.5
MPa to heat the feedwater in closed feedwater heater. Assume that
the feedwater leaves the heater at the condensation temperature of
the extracted steam and that the extracted steam leaves the heater
as a saturated liquid and is pumped to the line carrying the feedwater.
Show the cycle on a T-s diagram, and determine:
(a) the net work output per kg of steam flowing through the
boiler, and
(b) the thermal efficiency of the cycle.
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