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Refrigerant-134a enters the compressor of a refrigeration system as saturated vapor at 0.14 MPa and leaves as superheated vapor at 0.8 MPa and 60°C at a rate of 0.054 kg/s. Determine the rates of energy transfers by mass into and out of the compressor. Assume the kinetic and potential energies to be negligible. The enthalpies of refrigerant-134a at the inlet and the exit are 239.19 kJ/kg and 296.82 kJ/kg, respectively.

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Answer:

16.02kW and 12.91kW

Explanation:

Knowing the enthalpy data, we have to

[tex]h1=239.16kJ/kg\\h2=296.81kJ/kg[/tex]

So,

[tex]E_{mass,in}=mh_1[/tex]

Here,

m=mass flow rate

h= Enthalpy of refrigerant at the compressor

Replacing

[tex]E_{mass,in}=(0.054Kg/s)(239.16kJ/kg)\\E_{mass,in}=12.91kW[/tex]

The rate of energy transfer by mass into the compressor is 12.91kW

In the other hand we have,

[tex]E_{mass,out}=mh_2[/tex]

Replacing

[tex]E_{mass,out}=(0.054Kg/s)(296.81kJ/kg)\\E_{mass,out}=16.02kW[/tex]

The rate of energy transfer by mass out of the compressor is 16.02 kW

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