Design and rating of a two-stage vapor-compression refrigeration system

Jameel Ur Rehman Khan; Syed M. Zubair

doi:10.1016/S0360-5442(98)00024-3

Design and rating of a two-stage vapor-compression refrigeration system

Jameel Ur Rehman Khan
, Syed M. Zubair^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

The non-isentropic compression processes in the compressor of a vapor-compression system consume more power with increasing thermal lift because of the increasing slope of the constant isentropic line on a log(p)-h diagram. However, in a two-stage system (TSS), compression is performed in stages, thereby allowing the compressors to operate efficiently close to the saturation curve. In this paper, thermodynamic models of the TSS are developed to simulate system performance with respect to the interstage temperature and heat-exchanger parameters. The TSS performance is better than for a simple cycle and depends on the interstage temperature of the flash intercooler. Models are used to derive the optimum total heat exchanger area between the evaporator and condenser.

Original language	English
Pages (from-to)	867-878
Number of pages	12
Journal	Energy
Volume	23
Issue number	10
DOIs	https://doi.org/10.1016/S0360-5442(98)00024-3
State	Published - Oct 1998

ASJC Scopus subject areas

Civil and Structural Engineering
Building and Construction
Modeling and Simulation
Renewable Energy, Sustainability and the Environment
Fuel Technology
Energy Engineering and Power Technology
Pollution
Mechanical Engineering
General Energy
Industrial and Manufacturing Engineering
Management, Monitoring, Policy and Law
Electrical and Electronic Engineering

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title = "Design and rating of a two-stage vapor-compression refrigeration system",

abstract = "The non-isentropic compression processes in the compressor of a vapor-compression system consume more power with increasing thermal lift because of the increasing slope of the constant isentropic line on a log(p)-h diagram. However, in a two-stage system (TSS), compression is performed in stages, thereby allowing the compressors to operate efficiently close to the saturation curve. In this paper, thermodynamic models of the TSS are developed to simulate system performance with respect to the interstage temperature and heat-exchanger parameters. The TSS performance is better than for a simple cycle and depends on the interstage temperature of the flash intercooler. Models are used to derive the optimum total heat exchanger area between the evaporator and condenser.",

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year = "1998",

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AU - Khan, Jameel Ur Rehman

AU - Zubair, Syed M.

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N2 - The non-isentropic compression processes in the compressor of a vapor-compression system consume more power with increasing thermal lift because of the increasing slope of the constant isentropic line on a log(p)-h diagram. However, in a two-stage system (TSS), compression is performed in stages, thereby allowing the compressors to operate efficiently close to the saturation curve. In this paper, thermodynamic models of the TSS are developed to simulate system performance with respect to the interstage temperature and heat-exchanger parameters. The TSS performance is better than for a simple cycle and depends on the interstage temperature of the flash intercooler. Models are used to derive the optimum total heat exchanger area between the evaporator and condenser.

AB - The non-isentropic compression processes in the compressor of a vapor-compression system consume more power with increasing thermal lift because of the increasing slope of the constant isentropic line on a log(p)-h diagram. However, in a two-stage system (TSS), compression is performed in stages, thereby allowing the compressors to operate efficiently close to the saturation curve. In this paper, thermodynamic models of the TSS are developed to simulate system performance with respect to the interstage temperature and heat-exchanger parameters. The TSS performance is better than for a simple cycle and depends on the interstage temperature of the flash intercooler. Models are used to derive the optimum total heat exchanger area between the evaporator and condenser.

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SP - 867

EP - 878

JO - Energy

JF - Energy

IS - 10

ER -

Design and rating of a two-stage vapor-compression refrigeration system

Abstract

ASJC Scopus subject areas

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