THERMODYNAMIC STATE SURFACE AND CYCLE ANALYSIS FOR REFRIGERANT-22 + REFRIGERANT-114 SYSTEM

被引：1

作者：

KAGAWA, N

IKEDA, H

KAWANO, H

UEMATSU, M

WATANABE, K

机构：

[1] NOMURA SECURIT INVESTMENT TRUST MANAGEMENT CO LTD,CYUO KU,TOKYO 103,JAPAN

[2] KEIO UNIV,DEPT MECH ENGN,KOHOKU KU,YOKOHAMA,KANAGAWA 223,JAPAN

[3] RICOH CO LTD,OTA KU,TOKYO 143,JAPAN

来源：

JSME INTERNATIONAL JOURNAL SERIES II-FLUIDS ENGINEERING HEAT TRANSFER POWER COMBUSTION THERMOPHYSICAL PROPERTIES | 1992年 / 35卷 / 01期

关键词：

EQUATION OF STATE; REFRIGERATION; HEAT PUMP; COEFFICIENT OF PERFORMANCE; REFRIGERANT-22 + REFRIGERANT-114 SYSTEM; THERMODYNAMICS; THERMODYNAMIC STATE SURFACE; THERMOPHYSICAL PROPERTY; BINARY REFRIGERANT MIXTURE;

D O I：

10.1299/jsmeb1988.35.1_116

中图分类号：

TH [机械、仪表工业];

学科分类号：

0802 ;

摘要：

In order to examine thermophysical properties and cycle analysis for a nonazeotropic mixture of the Refrigerant 22(CHClF2) + Refrigerant 114 (CClF2CClF2) system, an equation of state coupled with empirical mixing rules was formulated based on the available PVTx measurements taking thermodynamic consistency into consideration. The developed equation of state is expressed by the Helmholtz function as a function of temperature, density and composition, and is effective for a range of temperatures from 250 to 500 K and of pressures up to 10 MPa, which corresponds to the density range up to the critical value. With the aid of the proposed equation, the cycle analysis on the heat pump and refrigeration systems was theoretically carried out, and it became clear that the Refrigerant 22 + Refrigerant 114 system is promising for industrial heat pumps or air-conditioning and hot-water-supply heat pump systems. It was confirmed that the effect of change in composition on the theoretical coefficient of performance had the same behavior as that reported by experimental testing.

引用

页码：116 / 123

页数：8

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