The refrigerant gas which is air, enters the compressor of a Brayton refrigeration cycle at 101...
The refrigerant gas which is air, enters the compressor of a Brayton refrigeration cycle at 101 kPa, 280 K. If the compressor pressure ratio is 5 and the turbine inlet temperature is 330 K. The compressor has an isentropic efficiency of 70% and the turbine has an isentropic efficiency of 80%. Using air table rather than constant-specific-heat theory, determine
(a) the net work input per unit mass of air flow,
(b) the refrigeration capacity, in kJ/kg,
(c) the coefficient of performance,
(d) the coefficient of performance if the compressor and turbine have 100% efficiency, and discuss the result compared with (c)
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The refrigerant gas which is air, enters the compressor of a
Brayton refrigeration cycle at 101...
Air enters the compressor of an ideal Brayton refrigeration cycle at 140 kPa, 270 K, and...
Air enters the compressor of an ideal Brayton refrigeration cycle at 140 kPa, 270 K, and is compressed to 420 kPa. At the turbine inlet, the temperature is 320 K and the volumetric flow rate is 0.4 m3/s. Determine (a) the mass flow rate, in kg/s (b) the net power input, in kW (c) the refrigerating capacity, in kW (d) the coefficient of performance Round answers to 3 significant digits.
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Air enters the compressor of a cold air-standard Brayton cycle at 100 kpa, 300 k, with...
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Air enters the compressor of a regenerative air-standard Brayton cycle with a volumetric flow rate of 20 m3/s at 0.8 bar, 280 K. The compressor pressure ratio is 20, and the maximum cycle temperature is 1950 K. For the compressor, the isentropic efficiency is 92% and for the turbine the isentropic efficiency is 95%. For a regenerator effectiveness of 86%, determine: (a) the net power developed, in MW. (b) the rate of heat addition in the combustor, in MW. (c)...
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