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Assuming Isentropic Compression, Isobaric Cooling, Isobaric Condensation, Isobaric Subcooling, Adiabatic Expansion & Isobaric Evaporation, then:

Compressor Power, P꜀ = Carnot Work + Finite Heat-transfer Loss + Superheating Loss + Subcooling Loss

Chiller

ReverseRankineCycle

SecondLawofThermodynamics

SadiCarnot

FiniteHeatTransfer

Superheat

SuperheatedHorn

Subcool

Compressor

ExpansionValve

Throttle

Condenser

Evaporator

Refrigerant

Fouling

TemperatureEntropy

IsentropicCompression

IsobaricCooling

IsobaricCondensation

IsobaricSubCooling

AdiabaticExpansion

IsobaricEvaporation

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