At the commencement of compression in the reciprocating compressor of a refrigeration plant the refrigerant is dry saturated at 1 bar. The compression process follows the law pV = constant until the pressure is 10 bar. Using the properties of refrigerant given in the table, interpolating where necessary, calculate: (a) the work done on the refrigerant during the process (b) the change of internal energy on the refrigerant during the process (c) the heat transfer through the cylinder wall during the process Saturation values Superheat values at 10 bar P br hg V h bar °C m'/kg kJ/kg m'/kg kJ/kg 1 -30 0.160 8.9 174.2 10 42 0.018 76.3 203.8 0.020 224.0

At the commencement of compression in the reciprocating compressor of a refrigeration plant the refrigerant is dry saturated at 1 bar. The compression process follows the law pV = constant until the pressure is 10 bar. Using the properties of refrigerant given in the table, interpolating where necessary, calculate: (a) the work done on the refrigerant during the process (b) the change of internal energy on the refrigerant during the process (c) the heat transfer through the cylinder wall during the process Saturation values Superheat values at 10 bar P br hg V h bar °C m'/kg kJ/kg m'/kg kJ/kg 1 -30 0.160 8.9 174.2 10 42 0.018 76.3 203.8 0.020 224.0

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

At the commencement of compression in the reciprocating compressor of a
refrigeration plant the refrigerant is dry saturated at 1 bar. The compression process
follows the law pV = constant until the pressure is 10 bar. Using the properties of
refrigerant given in the table, interpolating where necessary, calculate:
(a) the work done on the refrigerant during the process
(b) the change of internal energy on the refrigerant during the process
(c) the heat transfer through the cylinder wall during the process
Saturation values
Superheat values at
10 bar
P
bar
hr
he
kJkg
V
h
°C
m'/kg
0.160
m'/kg
kJ/kg
1
-30
8.9
174.2
10
42
0.018
76.3
203.8
0.020
224.0

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