Flow boiling of R134a in an open-cell metal foam mini-channel evaporator

Gao Wuhuan; Xu Xianghua; Liang Xingang

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Flow boiling of R134a in an open-cell metal foam mini-channel evaporator

机译：R134a在开孔金属泡沫微通道蒸发器中的沸腾

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Open-cell metal foam mini-channel evaporator (OMFME) is proposed to enhance heat transfer in electronics cooling. In present study, flow boiling in an OMFME is investigated using R134a. The OMFME has nine channels, which are 507 mu m in width and 1097 mu m in depth. Comparing with a mini-channel evaporator (ME) with the same footprint area, the heat transfer coefficient (HTC) is enhanced up to 1.5 times and the dry out is delayed. Flow patterns are presented and compared with an existed flow patterns map. HTCs generally increases with the quality, the heat flux and it is slightly influenced by the mass flow rate. Nucleate boiling and evaporation in the porous fins are the two heat transfer mechanisms in different quality range. A correlation is presented to calculate frictional pressure drop. (C) 2018 Elsevier Ltd. All rights reserved.

机译：提出了开孔金属泡沫微通道蒸发器（OMFME），以增强电子冷却中的热传递。在本研究中，使用R134a研究了OMFME中的沸腾现象。 OMFME具有9个通道，其宽度为507微米，深度为1097微米。与具有相同占地面积的微型通道蒸发器（ME）相比，传热系数（HTC）增强了1.5倍，并且干燥变干了。提出了流型并将其与现有流型图进行比较。 HTC通常随质量，热通量增加，并且受质量流率的影响很小。多孔翅片中的核沸腾和蒸发是不同质量范围内的两种传热机制。给出了相关性以计算摩擦压降。（C）2018 Elsevier Ltd.保留所有权利。

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来源
《International Journal of Heat and Mass Transfer》 |2018年第ptaa期|103-115|共13页
作者
Gao Wuhuan; Xu Xianghua; Liang Xingang;
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作者单位

Tsinghua Univ, Sch Aerosp, Beijing, Peoples R China;

Tsinghua Univ, Sch Aerosp, Beijing, Peoples R China;

Tsinghua Univ, Sch Aerosp, Beijing, Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Mini-channel; Metal foam; Flow boiling; Flow patterns; Pressure drop; Heat transfer;

机译：微型通道;金属泡沫;流沸腾;流型;压降;传热;

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1. Experimental study on the effect of orientation on flow boiling using R134a in a mini-channel evaporator [J] . Gao Wuhuan, Xu Xianghua, Liang Xingang Applied thermal engineering: Design, processes, equipment, economics . 2017,第期

机译：迷你通道蒸发器中R134a取向对流沸腾效果的实验研究
2. Pore-scale investigation on flow boiling heat transfer mechanisms in open-cell metal foam by LBM [J] . International communications in heat and mass transfer . 2020,第Jana期

机译：LBM在开孔金属泡沫中沸腾传热机理的孔径研究
3. Experimental and Numerical Analyses of R134a Flow Boiling Heat Transfer Characteristics in an Evaporator Tube of Refrigeration System [J] . Zahraa Kareem Yasser, Ahmed J. Hamad International journal of air-conditioning and refrigeration . 2019,第3期

机译：制冷系统蒸发管中R134a流沸腾换热特性的实验与数值分析
4. EXPERIMENTAL INVESTIGATION AND DISCUSSION OF HEAT TRANSFER MECHANISMS DURING FLOW BOILING IN MINI-CHANNELS USING REFRIGERANT R134A [C] . Nicolas La Forgia, Carlos A. Dorao, Maria Fernandino ASME international conference on nanochannels, microchannels and minichannels . 2016

机译：制冷剂R134A在小型通道沸腾过程中传热机理的实验研究与讨论
5. Analytical and Numerical Modeling of Fluid Flow and Heat Transfer through Open-Cell Metal Foam Heat Exchangers [D] . Taheri, Mehrdad. 2015

机译：通过开孔金属泡沫热交换器进行流体流动和传热的分析和数值模型
6. The Activation of Ti-Zr-V-Hf Non-Evaporable Getter Films with Open-Cell Copper Metal Foam Substrates [O] . Jie Wang, Jing Zhang, Yong Gao, 2020

机译：用开孔铜金属泡沫基材的Ti-ZR-V-HF非蒸发吸气膜的激活
7. Model of R134a Liquid–Vapor Two-Phase Heat Transfer Coefficient for Pulsating Flow Boiling in an Evaporator Using Response Surface Methodology [O] . Peng Yang, Ting Zhang, Yuheng Zhang, 2020

机译：R134A液 - 蒸汽两相传热系数用于使用响应表面方法脉动蒸发器中的蒸发器沸腾流动的模型
8. Horizontal Nucleate Flow Boiling Heat Transfer Coefficient Measurements andVisual Observations for R12, R134a, and R134a/Ester Lubricant Mixtures [R] . Kedzierski, M. A., Kaul, M. P. 1993

机译：R12，R134a和R134a /酯润滑剂混合物的水平核流动沸腾传热系数测量和可视观察

Flow boiling of R134a in an open-cell metal foam mini-channel evaporator

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