Calculate the coefficient of performance of an ideal vapor-compression refrigeration cycle that usesR-134a as refrigerant. The evaporator and condenser temperatures are -5 °C and 39.37 °C, respectively. Therefrigerant flows at the rate of 8 kg/min.

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Calculate the coefficient of performance of an ideal vapor-compression refrigeration cycle R-134a as refrigerant. The evaporator and condenser temperatures are -5 °C and 39.37 °C, respectively. Th refrigerant flows at the rate of 8 kg/min.

Calculate the coefficient of performance of an ideal vapor-compression refrigeration cycle R-134a as refrigerant. The evaporator and condenser temperatures are -5 °C and 39.37 °C, respectively. Th refrigerant flows at the rate of 8 kg/min.

Refrigeration and Air Conditioning Technology (MindTap Course List)

8th Edition

ISBN:9781305578296

Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Chapter22: Condensers

Section: Chapter Questions

Problem 7RQ: When a standard-efficiency air-cooled condenser is used, the condensing refrigerant will normally be...

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Question

Calculate the coefficient of performance of an ideal vapor-compression refrigeration cycle that uses
R-134a as refrigerant. The evaporator and condenser temperatures are -5 °C and 39.37 °C, respectively. The
refrigerant flows at the rate of 8 kg/min.

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