CFD Analysis of Refrigeration Cycle Ejector

Volume 2: Fluid Applications and Systems; Fluid Measurement and Instrumentation Pub Date : 2021-08-10 DOI:10.1115/fedsm2021-62237

F. Forster, Alexander E. Deravanessian, Matthew J. Nazarian, Mariano Rubio, K. Anderson

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Abstract

The use of ejector cycles for increased performance and efficiency is becoming more prevalent in industry. The goal of this study is to evaluate an ejector using Computational Fluid Dynamics (CFD) to evaluate flow patterns, perform trade studies varying the type of refrigerant, and determine the entrainment ratio for each working fluid, over a range of boundary condition pressures, set at points along the ejector’s flow path. The 2012 Toyota Prius V is one of the first automobiles using an ejector cycle in their internal cabin refrigeration system. The DENSO Corporation ejector hardware was used as the basis for the creation of geometry for the CFD mode of the ejector. Three working fluids were simulated, R-134a, R-245fa, and R-1235yf. The primary findings of this study were as follows. The CFD study here indicates that R-245fa performs the best out of the three working fluids, when examining their entrainment ratios (ratio of secondary to primary flow rates in the ejector). For all three working fluids, the entrainment ratio was seen to peak performance at an ejector inlet pressure of 1.75 × 105 Pa. The ejector mixing chamber pressure and ejector outlet pressure boundary conditions also witnessed a rise in entrainment ratios, during an increase of their respective pressure values.

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制冷循环喷射器的CFD分析

使用喷射循环来提高性能和效率在工业中变得越来越普遍。本研究的目的是利用计算流体动力学(CFD)来评估喷射器的流动模式，进行不同制冷剂类型的贸易研究，并确定在喷射器流动路径上设置的边界条件压力范围内每种工作流体的夹带比。2012款丰田普锐斯V是首批在车内制冷系统中使用喷射循环的汽车之一。DENSO公司的弹射器硬件被用作创建弹射器CFD模型的几何结构的基础。模拟了3种工质:R-134a、R-245fa和R-1235yf。本研究的主要发现如下:CFD研究表明，在测试三种工作流体的夹带比(喷射器中二次流量与一次流量的比值)时，R-245fa的表现最好。对于所有三种工作流体，在喷射器进口压力为1.75 × 105 Pa时，夹带比达到峰值。在喷射器混合室压力和喷射器出口压力边界条件下，随着各自压力值的增加，夹带比也有所增加。

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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Volume 2: Fluid Applications and Systems; Fluid Measurement and Instrumentation

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