Consider below ideal regenerative Brayton Cycle with intercooler and reheater assuming constant c, of 1005. a) Draw T-s diagram b) Assuming YY kg/s mass flow rate, determine net power output of this cycle and heat transfer or work in intercooler, reheater and combustion chamber c) Thermal efficiency of this cycle
Consider below ideal regenerative Brayton Cycle with intercooler and reheater assuming constant c, of 1005. a) Draw T-s diagram b) Assuming YY kg/s mass flow rate, determine net power output of this cycle and heat transfer or work in intercooler, reheater and combustion chamber c) Thermal efficiency of this 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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Consider below ideal regenerative Brayton Cycle with intercooler and reheater assuming
constant cp of 1005.
a) Draw T-s diagram
b) Assuming 20 kg/s mass flow rate, determine net power output of this cycle and heat
transfer or work in intercooler, reheater and combustion chamber
c) Thermal efficiency of this cycle
d) Thermal efficiency of an equivalent simple Brayton cycle without regeneration,
intercooling and reheating
e) Back work ratio
Transcribed Image Text:Consider below ideal regenerative Brayton Cycle with intercooler and reheater assuming
constant c, of 1005.
a) Draw T-s diagram
b) Assuming YY kg/s mass flow rate, determine net power output of this cycle and heat
transfer or work in intercooler, reheater and combustion chamber
c) Thermal efficiency of this cycle
d) Thermal efficiency of an equivalent simple Brayton cycle without regeneration,
intercooling and reheating
e) Back work ratio
yy- 20
XX=40
Regenerator
25 °C
1YY0 °C
100+XX kPa
Reheater
9XX kPaO
Combustion
chamber
net
Compressor
II
Compressor
Turbine I
Turbine II
Intercooler
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