Q14. In an ideal constant pressure cycle the overall volume ratio of the cycle is 8. The volume ratio of the adiabatic compression is 6. The pressure, volume and temperature at the beginning of the adiabatic compression are 100 kN/m?, 0.084 m³ and 28 °C respectively. Take: y = 1.4, C, = 1.006 kJ/kg.K Determine for the cycle: (a) The pressure, volume and temperature at cycle state points. (b) The heat received. (c) The thermal efficiency. (d) The work ratio. (e) The heat rejected.
Q14. In an ideal constant pressure cycle the overall volume ratio of the cycle is 8. The volume ratio of the adiabatic compression is 6. The pressure, volume and temperature at the beginning of the adiabatic compression are 100 kN/m?, 0.084 m³ and 28 °C respectively. Take: y = 1.4, C, = 1.006 kJ/kg.K Determine for the cycle: (a) The pressure, volume and temperature at cycle state points. (b) The heat received. (c) The thermal efficiency. (d) The work ratio. (e) The heat rejected.
Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Transcribed Image Text:Q14. In an ideal constant pressure cycle the overall volume ratio of the cycle is
8. The volume ratio of the adiabatic compression is 6. The pressure,
volume and temperature at the beginning of the adiabatic compression are 100
kN/m?, 0.084 m³ and 28 °C respectively.
Take: y = 1.4, C, = 1.006 kJ/kg.K
Determine for the cycle:
(a) The pressure, volume and temperature at cycle state points. (b) The heat received.
(c) The thermal efficiency. (d) The work ratio. (e) The heat rejected.
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