the energy balance equation for the system consisting of the steam generator and turbine as enclosed by the broken line indicated in the figure. Determine the power developed by the turbine (in kW) and the turbine inlet temperature (in (Ɔ.
the energy balance equation for the system consisting of the steam generator and turbine as enclosed by the broken line indicated in the figure. Determine the power developed by the turbine (in kW) and the turbine inlet temperature (in (Ɔ.
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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Transcribed Image Text:the energy balance equation for the
system consisting of the steam
generator and turbine as enclosed
by the broken line indicated in the
figure. Determine the power
developed by the turbine (in kW)
and the turbine inlet temperature (in
(Ɔ.
Combustion products in
Turbine
Power
Combustion
out
products out
Steam
generator
water in
water out
wwww
www
Transcribed Image Text:An industrial process discharges
110 m/s of gaseous combustion
products at 208°C, 1.1 bar
(properties at state 1). As shown in
the figure, a proposed system for
utilizing the combustion products
combines a heat-recovery steam
3
generator with a well-insulated
turbine. At steady state, combustion
products exit the steam generator at
150°C, 1 bar, and a separate stream
of water enters at 3 bars, 45°C with
a mass flow rate of 3.2 kg/s. At the
exit of the turbine, the pressure is
0.15 bars and the quality is 90%.
Heat transfer from the outer
surfaces of the steam generator and
turbine can be ignored, as can the
changes in kinetic and potential
energies of the flowing streams and
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