A multi stage vapor compression refrigeration cycle used R22 as a working fluid. This cycle include a heat exchanger used a H2O for cooling the refrigerant and used the flash tank to more cool the refrigerant (R22) before bigh The

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Please help me Need solution through half hr please.
A multi stage vapor compression
refrigeration cycle used R22 as a
working fluid. This cycle include a heat
exchanger used a H20 for cooling the
refrigerant and used the flash tank to
more cool the refrigerant (R22) before
enter to high stage compressor. The
refrigeration capacity is (4) TR, where
operates in pressure limits of 18 bar to
4.2 bar, the refrigerant out of condenser
as a compressed liquid sub becomes
cooled (39 ° C) at exit of condenser.
The de-superheated refrigerant leaves
the water cooler at 28 ° C. The flash
tank separate the refrigerant vapour and
liquid refrigerant at the tank extended to
evaporator pressure. If the clearance
volume ratio for both the compressors
is 0.04 draw the P-h and the component
of cycle. Determine: 1-mass flow rate of
refrigerant 2- swept volume rates
3-power required and COP.
Transcribed Image Text:A multi stage vapor compression refrigeration cycle used R22 as a working fluid. This cycle include a heat exchanger used a H20 for cooling the refrigerant and used the flash tank to more cool the refrigerant (R22) before enter to high stage compressor. The refrigeration capacity is (4) TR, where operates in pressure limits of 18 bar to 4.2 bar, the refrigerant out of condenser as a compressed liquid sub becomes cooled (39 ° C) at exit of condenser. The de-superheated refrigerant leaves the water cooler at 28 ° C. The flash tank separate the refrigerant vapour and liquid refrigerant at the tank extended to evaporator pressure. If the clearance volume ratio for both the compressors is 0.04 draw the P-h and the component of cycle. Determine: 1-mass flow rate of refrigerant 2- swept volume rates 3-power required and COP.
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