CFD Modelling of Finned-tube CO2 Gas Cooler for Refrigeration Systems

Energy Procedia Pub Date : 2019-03-01 DOI:10.1016/j.egypro.2019.02.092

Xinyu Zhang , Yunting Ge , Jining Sun , Liang Li , Savvas A. Tassou

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引用次数: 6

Abstract

As a main component in a refrigeration system, finned-tube CO2 gas cooler plays an important role to the system performance and thus needs to be thoroughly investigated. To achieve this, some effective parameters including the CO2 and air fluid velocity fields, temperature profiles and heat transfer characteristics at different operating conditions are predicted and analysed by means of Computational Fluid Dynamics (CFD) modelling and simulation. It is noted that CFD modelling can accurately obtain the local heat transfer coefficients of both air and refrigerant sides, which are difficult to be predicted by conventional empirical correlations. This paper investigates the effect of varied operational parameters on local heat transfer coefficients and temperature profiles of the working fluids in a finned-tube CO2 gas cooler by means of CFD modelling. As one of the simulation results, it is found that the approach temperature decreases with increased air inlet velocity. The model has been compared and validated with experimental measurements and literature correlations. The research methods and outcomes can be used for further investigation and optimization in this area.

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制冷系统中翅片管CO2气体冷却器的CFD建模

翅片管式CO2气体冷却器作为制冷系统的主要部件，对制冷系统的性能起着重要的作用，需要深入研究。为此，采用计算流体力学(CFD)建模和仿真的方法，对不同工况下CO2和空气流体速度场、温度分布和换热特性等有效参数进行了预测和分析。指出CFD模型可以准确地获得空气侧和制冷剂侧的局部换热系数，这是传统经验关联难以预测的。采用CFD模型研究了不同工作参数对翅片管式CO2气体冷却器内工质局部换热系数和温度分布的影响。仿真结果表明，进气道温度随进气速度的增大而降低。该模型已与实验测量和文献相关性进行了比较和验证。研究方法和成果可为该领域的进一步研究和优化提供参考。

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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Energy Procedia

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