The working fluid of an ideal Rankine cycle is steam. The turbine enters saturated vapor at 8.0 MPa and the condenser leaves saturated liquid at the pressure of 0.008 MPa . The net power obtained is 100 MW. Determine for the cycle: a) The cycle efficiency (thermal efficiency) b) The mass flow c) Heat flow absorbed in the boiler
The working fluid of an ideal Rankine cycle is steam. The turbine enters saturated vapor at 8.0 MPa and the condenser leaves saturated liquid at the pressure of 0.008 MPa . The net power obtained is 100 MW. Determine for the cycle: a) The cycle efficiency (thermal efficiency) b) The mass flow c) Heat flow absorbed in the boiler
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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The working fluid of an ideal Rankine cycle is steam. The turbine enters
saturated vapor at 8.0 MPa and the condenser leaves saturated liquid at the pressure of 0.008 MPa . The net power obtained is 100 MW. Determine for the cycle:
a) The cycle efficiency (thermal efficiency)
b) The mass flow
c) Heat flow absorbed in the boiler
d) Heat flow transferred in the condenser
e) Consider that cooling water passes through the condenser, in kg/ ℎ.
Determine the mass flow of this refrigerant if it enters the condenser at
15º C year sale at 35ºC .
f) Determine the Carnot efficiency
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