(CLO-6) An ideal vapor compression refrigeration cycle with R-134a as the working fluid operates between the pressure limits of 80 kPa and 1000kPa. A schematic of the cycle is shown below. Determine the COP of the cycle. The following data are provided.PressureEnthalpy231.46 kJ/kgState30 kPa1000 kPa284 k/kg1000 kPa107.32 kgB0 kPa107.32 k/kgemironmentCondemerExpansionvalveCompressorEaporator

Answered: Image /qna-images/answer/e0acc515-a8c6-4383-8376-0b94b0690f0b.jpg

LOGJAn ideal vapor compression refrigeration cycle with R-134a as the working fuld operates between the pressure limits of 80 kPa and 1000 Enthalpy 231.46 Kg State Pressure o kPa 1000 kPa 284 k/kg 1000 kPa 107.32 kg 107.32 kg Conker Expumice valve mpreser

LOGJAn ideal vapor compression refrigeration cycle with R-134a as the working fuld operates between the pressure limits of 80 kPa and 1000 Enthalpy 231.46 Kg State Pressure o kPa 1000 kPa 284 k/kg 1000 kPa 107.32 kg 107.32 kg Conker Expumice valve mpreser

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Question

(CLO-6) An ideal vapor compression refrigeration cycle with R-134a as the working fluid operates between the pressure limits of 80 kPa and 1000
kPa. A schematic of the cycle is shown below. Determine the COP of the cycle. The following data are provided.
Pressure
Enthalpy
231.46 kJ/kg
State
30 kPa
1000 kPa
284 k/kg
1000 kPa
107.32 kg
B0 kPa
107.32 k/kg
emironment
Condemer
Expansion
valve
Compressor
Eaporator

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