heat exchanger

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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Just answer letters D, E, and F. Thank you.

1. A standard refrigerating system with a heat exchanger is operating with a condenser pressure of 1571.2 kPa and
evaporator pressure of 421.35 kPa using refrigerant R22. If the liquid line from the condenser is soldered to the
suction line from the evaporator to form a heat exchanger and if as a result of this, the saturated vapor leaving
the evaporator is superheated by 10.
Determine
(a) temperature of refrigerant entering the compressor
(b) temperature of refrigerant leaving the compressor
(c) degree superheat leaving the compressor
(d) temperature of subcooled liquid leaving heat exchanger
(e) degree subcooled leaving the heat exchanger
(f) mass of flash gas per kg refrigerant entering evaporator
(g) compression ratio
(h) clearance volumetric efficiency of compressor if the
clearance volume is 5%
18 answers
(i) refrigerating effect
(i) mass flow rate of refrigerant per ton of refrigeration
(k) work on compressor
(1) work on compressor per ton of refrigeration
(m) condenser load
(n) condenser load per ton of refrigeration
(0) volume capacity of compressor per ton of refrigeration
(p) coefficient of performance
(q) draw the system diagram
(r) draw the ph diagram
Transcribed Image Text:1. A standard refrigerating system with a heat exchanger is operating with a condenser pressure of 1571.2 kPa and evaporator pressure of 421.35 kPa using refrigerant R22. If the liquid line from the condenser is soldered to the suction line from the evaporator to form a heat exchanger and if as a result of this, the saturated vapor leaving the evaporator is superheated by 10. Determine (a) temperature of refrigerant entering the compressor (b) temperature of refrigerant leaving the compressor (c) degree superheat leaving the compressor (d) temperature of subcooled liquid leaving heat exchanger (e) degree subcooled leaving the heat exchanger (f) mass of flash gas per kg refrigerant entering evaporator (g) compression ratio (h) clearance volumetric efficiency of compressor if the clearance volume is 5% 18 answers (i) refrigerating effect (i) mass flow rate of refrigerant per ton of refrigeration (k) work on compressor (1) work on compressor per ton of refrigeration (m) condenser load (n) condenser load per ton of refrigeration (0) volume capacity of compressor per ton of refrigeration (p) coefficient of performance (q) draw the system diagram (r) draw the ph diagram
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