Problem 10.21In a vapor-compression refrigeration cycle, ammonia exits the evaporator as saturated vapor at-22°C. The refrigerant enters the condenser at 16 bar and 160°C, and saturated liquid exits at 16bar. There is no significant heat transfer between the compressor and its surroundings, and therefrigerant passes through the evaporator with a negligible change in pressure. If the refrigeratingcapacity is 150 kW, determine(a) the mass flow rate of the refrigerant, in kg/s.(b) the power input to the compressor, in kW.(c) the coefficient of performance.(d) the isentropic compressor efficiency.(e) the rate of entropy production, in kW/K, for the compressor.Known:Ammonia is the working fluid in a vapor-compression refrigeration system. Data are known atvarious locations and the refrigerating capacity is given.Find:Determine (a) the mass flow rate of the refrigerant, (b) the compressor power, (c) the coefficientof performance, (d) the isentropic compressor efficiency, and (e) the rate of entropy productionfor the compressor.Schematic and Known Data:T160 C-22 C3A16 barSQuCondenser16 barExpansionValve160 CCompressorEngineering model:Q = 150 kW(1) Each component of the cycle is analyzed as a control volume at steady state.(2) There are no pressure drops through the evaporator and condenser.(3) The compressor operates adiabatically. The expansion through the valve is a throttlingprocess.(4) Kinetic and potential energy effects are negligible.T¹=-22 C1 Sat. Vapor

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In a vapor-compression refrigeration cycle, ammonia exits the evaporator as saturated vapor at -22°C. The refrigerant enters the condenser at 16 bar and 160°C, and saturated liquid exits at 16 bar. There is no significant heat transfer between the compressor and its surroundings, and the refrigerant passes through the evaporator with a negligible change in pressure. If the refrigerating

In a vapor-compression refrigeration cycle, ammonia exits the evaporator as saturated vapor at -22°C. The refrigerant enters the condenser at 16 bar and 160°C, and saturated liquid exits at 16 bar. There is no significant heat transfer between the compressor and its surroundings, and the refrigerant passes through the evaporator with a negligible change in pressure. If the refrigerating

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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Question

Problem 10.21
In a vapor-compression refrigeration cycle, ammonia exits the evaporator as saturated vapor at
-22°C. The refrigerant enters the condenser at 16 bar and 160°C, and saturated liquid exits at 16
bar. There is no significant heat transfer between the compressor and its surroundings, and the
refrigerant passes through the evaporator with a negligible change in pressure. If the refrigerating
capacity is 150 kW, determine
(a) the mass flow rate of the refrigerant, in kg/s.
(b) the power input to the compressor, in kW.
(c) the coefficient of performance.
(d) the isentropic compressor efficiency.
(e) the rate of entropy production, in kW/K, for the compressor.
Known:
Ammonia is the working fluid in a vapor-compression refrigeration system. Data are known at
various locations and the refrigerating capacity is given.
Find:
Determine (a) the mass flow rate of the refrigerant, (b) the compressor power, (c) the coefficient
of performance, (d) the isentropic compressor efficiency, and (e) the rate of entropy production
for the compressor.
Schematic and Known Data:
T
160 C
-22 C
3
A
16 bar
S
Qu
Condenser
16 bar
Expansion
Valve
160 C
Compressor
Engineering model:
Q = 150 kW
(1) Each component of the cycle is analyzed as a control volume at steady state.
(2) There are no pressure drops through the evaporator and condenser.
(3) The compressor operates adiabatically. The expansion through the valve is a throttling
process.
(4) Kinetic and potential energy effects are negligible.
T¹=-22 C
1 Sat. Vapor

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Step 2: Calculation of the compressor work input(kJ/kg)

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Step 3: Heat removed in the evaporator(kJ/kg)

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Step 4: (a) Mass flow rate of the refrigerant(kg/s)

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