Thermo 1Pls kindly help me asap The figure below provides steady-stateoperating data for an idealrefrigerationthe working fluid. The mass flow rate ofis 30.59 lb/min.refrigerantDetermine:vapor-compressioncycle with Refrigerant 134a asState1234ExpansionvalveHot region30mCondenserCompressorEvaporatorX+2-30.59SO₂Cold regionJerseyIb &minW₂p$T h(lbf/in.2) (°F) (Btu/lb) (Btu/lb R)150102.4180125.6180 Sat. 50.6415 Sat. 50.640.23030.23030.1009(a) the compressor power, in horsepower.(b) the rate of heat transfer, from the workingfluid passing through the condenser, inBtu/min.(c) the coefficient of performance.

Mass flow rate = 30.59 (lb/min) vapor compression refrigeration system with working fluid R-134a…

The figure below provides steady-state operating data for an ideal refrigeration the working fluid. The mass flow rate of refrigerant is 30.59 lb/min. Determine: vapor-compression cycle with Refrigerant 134a as State 1 2 3 4 Expansion valve 15 Hot region 30- 180 Condenser Compressor ---- .-30.59 Evaporator h Р T (lbf/in.²) (°F) (Btu/lb) Cold region 0 102.4 125.6 S (Btu/lb "R) 0.2303 0.2303 180 Sat. 50.64 0.1009 15 Sat. 50.64 (a) the compressor power, in horsepower. (b) the rate of heat transfer, from the working fluid passing through the condenser, in Btu/min

The figure below provides steady-state operating data for an ideal refrigeration the working fluid. The mass flow rate of refrigerant is 30.59 lb/min. Determine: vapor-compression cycle with Refrigerant 134a as State 1 2 3 4 Expansion valve 15 Hot region 30- 180 Condenser Compressor ---- .-30.59 Evaporator h Р T (lbf/in.²) (°F) (Btu/lb) Cold region 0 102.4 125.6 S (Btu/lb "R) 0.2303 0.2303 180 Sat. 50.64 0.1009 15 Sat. 50.64 (a) the compressor power, in horsepower. (b) the rate of heat transfer, from the working fluid passing through the condenser, in Btu/min

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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