a b An ideal vapor-compression refrigeration system uses refrigerant - 22 as working fluid Saturated vapor at - 40°C An ideal vapor-compression refrigeration system uses refrigerant - 22 as working fluid. Saturated vapor at - 40°C enters the compressor suction enters the compressor suction at the rate of 15 m^3/min. at the rate of 15 m^3/min. Condenser pressure is 1200 kPa. Calculate the compressor Condenser pressure is 1200 kPa Calculate the coefficient of performance. power, in kW. * An ideal vapor-compression refrigeration system uses refrigerant - 22 as working fluid. Saturated vapor at - 40°C enters the compressor suction at the rate of 15 m^3/min. Condenser pressure is 1200 kPa. Calculate the refrigerating capacity, in tons.
a b An ideal vapor-compression refrigeration system uses refrigerant - 22 as working fluid Saturated vapor at - 40°C An ideal vapor-compression refrigeration system uses refrigerant - 22 as working fluid. Saturated vapor at - 40°C enters the compressor suction enters the compressor suction at the rate of 15 m^3/min. at the rate of 15 m^3/min. Condenser pressure is 1200 kPa. Calculate the compressor Condenser pressure is 1200 kPa Calculate the coefficient of performance. power, in kW. * An ideal vapor-compression refrigeration system uses refrigerant - 22 as working fluid. Saturated vapor at - 40°C enters the compressor suction at the rate of 15 m^3/min. Condenser pressure is 1200 kPa. Calculate the refrigerating capacity, in tons.
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
Chapter36: Refrigeration Applied To Air-conditioning
Section: Chapter Questions
Problem 9RQ: What are higher-efficiency refrigerant blends that can be used as long-term replacements for R-22 in...
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