Air as an ideal gas flows through the turbine and heat exchanger arrangement. Data for the two flow streams are shown on the figure. Heat transfer to the surroundings can be neglected, as can all kinetic and potential energy effects. Determine T3, in K, and the power output of the second turbine, in kW, at steady state.
Air as an ideal gas flows through the turbine and heat exchanger arrangement. Data for the two flow streams are shown on the figure. Heat transfer to the surroundings can be neglected, as can all kinetic and potential energy effects. Determine T3, in K, and the power output of the second turbine, in kW, at steady state.
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:6. Air as an ideal gas flows through the turbine and heat exchanger arrangement. Data for the two flow
streams are shown on the figure. Heat transfer to the surroundings can be neglected, as can all kinetic
and potential energy effects. Determine T3, in K, and the power output of the second turbine, in kW, at
steady state.
Transcribed Image Text:W = 10,000 kW
W12 = ?
Turbine
Turbine
2
P3 = 4.5 bar
T3 = ?
T, = 1100 K
P2 = 5 bar
T = 980 K
P4 = 1 bar
Air
in +
1
2
3
T = 1400 K
P1 = 20 bar
-www
T5 = 1480 K
-5 ps = 1.35 bar
ṁ3 = 1200 kg/min
9.
Heat exchanger
V T6 = 1200 K
P6 = 1 bar
Air
in
Problem no. 6
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