A constant volume fuel-air cycle operate at a compression ratio of 8. The maximum cycle temperature and pressure due to theoretical combustion of hydrocarbon fuel CH25 are found to be 3300 K and 50...

Thermal engineering
A constant volume fuel-air cycle operate at a compression ratio of 8. The<br>maximum cycle temperature and pressure due to theoretical combustion<br>of hydrocarbon fuel CH25 are found to be 3300 K and 50 bar,<br>srespectively. The exhaust pressure is 1 bar and lower calorific value of<br>fuel is 40000 KJ/kg. Calculate the trapped temperature, the thermal<br>efficiency and the specific fuel consumption.<br>kJ<br>and Cy, = 0.87<br>kJ<br>[Take: YR = YP = 1.33 , CVR = 1.15<br>%3D<br>%3D<br>kg. K<br>kg. K<br>

Extracted text: A constant volume fuel-air cycle operate at a compression ratio of 8. The maximum cycle temperature and pressure due to theoretical combustion of hydrocarbon fuel CH25 are found to be 3300 K and 50 bar, srespectively. The exhaust pressure is 1 bar and lower calorific value of fuel is 40000 KJ/kg. Calculate the trapped temperature, the thermal efficiency and the specific fuel consumption. kJ and Cy, = 0.87 kJ [Take: YR = YP = 1.33 , CVR = 1.15 %3D %3D kg. K kg. K

Jun 11, 2022
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