Two-Phase Refrigerant Mixture (R-407C) Flow in Smooth Meso-Scale Heat Exchangers

Heat Transfer: Volume 4 — Combustion and Energy Systems Pub Date : 2001-11-11 DOI:10.1115/imece2001/htd-24282

Yasir M. Shariff, T. S. Ravigururajan

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Abstract

The paper presents results from an experimental study on refrigerant mixture flow (R-407C) in which the heat transfer coefficient was measured across a range of heat and mass fluxes. Flow characteristics in smooth horizontal mesochannels were measured for two different conditions, 1) subcooled and 2) saturated boiling with diameters of 1.59, 2.78, and 3.97 mm and a length of 50.8 mm in refrigerant mixture (R-407C). Experiments were performed at heat fluxes of 2 and 11 kW/m2 for the subcooled boiling and 15 and 29 kW/m2 for the saturated boiling. The mass flux was varied from 0.45 to 1.55 kg/min and the refrigerant was subcooled to 8°C. The saturated boiling experiments were conducted for ΔTsat = 0 to 27°C. The heat transfer coefficients were found to be dependent on channel size, heat flux, and mass flux variations. For smaller channel diameters, the heat transfer rate significantly increased as compared to larger channel diameters. The results showed an increase of 100% in heat transfer coefficient when compared to traditional and micro-channel boiling characteristics.

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两相制冷剂混合物(R-407C)在光滑中尺度热交换器中的流动

本文介绍了一项关于制冷剂混合流动(R-407C)的实验研究结果，其中传热系数在一定范围内的热量和质量通量进行了测量。在直径分别为1.59、2.78和3.97 mm、长度为50.8 mm的制冷剂混合物(R-407C)中，测量了两种不同条件下(1)过冷和2)饱和沸腾的光滑水平中间通道的流动特性。实验中，过冷沸腾的热流密度分别为2和11 kW/m2，饱和沸腾的热流密度分别为15和29 kW/m2。质量流量为0.45 ~ 1.55 kg/min，制冷剂过冷至8℃。在ΔTsat = 0 ~ 27℃条件下进行饱和沸腾实验。传热系数与通道大小、热流密度和质量流密度的变化有关。对于较小的通道直径，传热率显著增加，相比较大的通道直径。结果表明，与传统沸腾特性和微通道沸腾特性相比，传热系数提高了100%。

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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Heat Transfer: Volume 4 — Combustion and Energy Systems

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