Entropy generation of R513A condensation flow inside the horizontal microfin tubes

IF 1.6 4区 工程技术 Q3 ENGINEERING, MECHANICAL
Suhan Zhang, Leren Tao, Lihao Huang, Cheng Jin
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引用次数: 0

Abstract

It is well known that the pressure drop of heat exchanger tube increases when heat transfer is enhanced, entropy generation analysis is an effective way to comprehensively analyze the heat transfer and pressure drop. In this paper, the refrigerants R513A and R134a are used in a horizontal single tube to carry out an experimental study of in-tube condensation heat transfer in six test tubes, the test tubes are divided into smooth and microfin tubes with outer diameters of 9.52 mm and 12.7 mm, where microfin tubes are available in two tube types with 60 and 65 fin, respectively. Helix angles of 18 degrees. The experimental conditions: mass flow rate of 50-300kg/m2·s, condensation temperatures of 35°C, 38°C and 40°C. The results show that it is feasible to replace R134a by R513A. It is analyzed that the comprehensive heat transfer performance of 9.52mm microfin tube is better than that of 12.7mm microfin tube, and the comprehensive heat transfer performance of 65-fin microfin tube is significantly lower than that of 60-fin microfin tube, i.e., microfin tubes with small pipe diameters and reasonable number of fin are conducive to the enhancement of condensation heat transfer performance.
水平微鳍管内 R513A 冷凝流的熵生成
众所周知,换热管的压降在传热增强时会增大,熵生成分析是综合分析传热和压降的有效方法。本文在水平单管中使用制冷剂 R513A 和 R134a,在六根试管中进行管内冷凝传热实验研究,试管分为光滑管和微翅管,外径分别为 9.52 毫米和 12.7 毫米,其中微翅管有两种管型,翅片分别为 60 和 65。螺旋角为 18 度。实验条件:质量流量为 50-300kg/m2-s,冷凝温度为 35°C、38°C 和 40°C。结果表明,用 R513A 替代 R134a 是可行的。分析结果表明,9.52 毫米微翅管的综合传热性能优于 12.7 毫米微翅管,65 翅片微翅管的综合传热性能明显低于 60 翅片微翅管,即管径小、翅片数量合理的微翅管有利于提高冷凝传热性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Thermal Science and Engineering Applications
Journal of Thermal Science and Engineering Applications THERMODYNAMICSENGINEERING, MECHANICAL -ENGINEERING, MECHANICAL
CiteScore
3.60
自引率
9.50%
发文量
120
期刊介绍: Applications in: Aerospace systems; Gas turbines; Biotechnology; Defense systems; Electronic and photonic equipment; Energy systems; Manufacturing; Refrigeration and air conditioning; Homeland security systems; Micro- and nanoscale devices; Petrochemical processing; Medical systems; Energy efficiency; Sustainability; Solar systems; Combustion systems
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