Review on high heat flux flow boiling of refrigerants and water for electronics cooling

Behnam Parizad Benarn; Abdolali Khalili Sadaghiani; Vedat Yagci; Murat Parlak; Khellil Sefiane; Ali Kosar

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Review on high heat flux flow boiling of refrigerants and water for electronics cooling

机译：电子冷却制冷剂和水的高热通量沸腾综述

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Heat removal from high heat flux devices such as computer chips, laser diodes, and other electronic devices and components has been a significant issue with the advances in micro- and nanofabrication capabilities. High heat fluxes suggest phase-change heat transfer modes including flow boiling to accomplish effective cooling of miniature devices. In contrast to pool boiling, flow boiling heat transfer is a more applied mode of heat transfer and has been most widely used in high heat flux cooling systems. There are two general approaches for improving flow boiling heat transfer: active and passive methods. In this review, all of the active and passive methods are covered, and almost all of the literature related to high heat flux is included. The other useful parts of this review are the tables, where almost all of the related literature, including studies on various working fluids (particularly refrigerants), channel sizes, and improvement methods to achieve high heat flux conditions are summarized so that scientists and engineers working in the field could greatly benefit from them. At the end, the review presents important developments in the field broad conclusion as well as suggestions and future research directions for future studies.

机译：诸如计算机芯片，激光二极管和其他电子设备等高热通量器件的热量去除是微型和纳米制作能力的进步的重要问题。高热助熔剂建议相变传热模式，包括流沸腾，以实现微型装置的有效冷却。与池沸腾相比，流沸热传热是一种更普通的传热模式，并且最广泛应用于高热通量冷却系统。改善流动沸腾热传递有两种普遍的方法：主动和无源方法。在本综述中，所有主动和无源方法都被覆盖，并且包括与高热量通量相关的所有文献。本评价的其他有用部分是桌子，其中几乎所有相关文献，包括各种工作流体（特别是制冷剂），通道尺寸和改进方法，以实现高热通量条件的研究，以便科学家和工程师工作在该领域可以从他们那里受益匪浅。最后，审查显示了实地广泛结论的重要发展以及未来研究的建议和未来的研究方向。

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来源
《International Journal of Heat and Mass Transfer》 |2021年第12期|121787.1-121787.16|共16页
作者
Behnam Parizad Benarn; Abdolali Khalili Sadaghiani; Vedat Yagci; Murat Parlak; Khellil Sefiane; Ali Kosar;
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作者单位

Faculty of Engineering and Natural Sciences (FENS). Sabanci University Orhanli Tuzla Istanbul 34956 Turkey;

Faculty of Engineering and Natural Sciences (FENS). Sabanci University Orhanli Tuzla Istanbul 34956 Turkey Center of Excellence for Functional Surfaces and Interfaces for Nano-Diagnostics (EFSUN) Sabanci University Orhanli Tuzla Istanbul 34956 Turkey;

Goelbasi - ANKARA ASELSAN INC- REHIS-Engineering Division Ankara Turkey;

Goelbasi - ANKARA ASELSAN INC- REHIS-Engineering Division Ankara Turkey;

Research Institute for Multiscale Thermofluids (IMT) School of Engineering University of Edinburgh Edinburgh EH8 9YL UK;

Faculty of Engineering and Natural Sciences (FENS). Sabanci University Orhanli Tuzla Istanbul 34956 Turkey Center of Excellence for Functional Surfaces and Interfaces for Nano-Diagnostics (EFSUN) Sabanci University Orhanli Tuzla Istanbul 34956 Turkey;

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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
High heat flux cooling; Flow boiling; Enhancement methods; Critical heat flux (CHF); Heat transfer coefficient (HTC); Pressure drop; Refrigerants;

机译：高热通量冷却;流沸腾;增强方法;临界热通量（CHF）;传热系数（HTC）;压力下降;制冷剂;

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专利

1. Local data of heat flux, wall temperature and the void phase along the boiling curve during vertical subcooled flow boiling of refrigerant Novec 649 at a copper wall [J] . Moritz Bruder, Ludwig Sembach, Veronika Krumova, Data in Brief . 2018,第1期

机译：制冷剂Novec 649在铜壁上的垂直过冷流动沸腾过程中沿沸腾曲线的热通量，壁温和空隙相的局部数据
2. Influence of boiling initiation surface superheat on subcooled water flow boiling critical heat flux in a SUS304 circular tube at high liquid Reynolds number [J] . Koichi Hata, Katsuya Fukuda, Suguru Masuzaki International Journal of Heat and Mass Transfer . 2016,第jula期

机译：高液态雷诺数下沸腾起始表面过热对SUS304圆管中过冷水流沸腾临界热通量的影响
3. Subcooled flow boiling heat transfer of water in a circular tube under high heat fluxes and high mass fluxes [J] . Yan Jianguo, Bi Qincheng, Liu Zhaohui, Fusion Engineering and Design . 2015,第NOVa期

机译：高热通量和高质量通量下圆管中水的过冷沸腾沸腾换热
4. INFLUENCE OF BOILING INITIATION SURFACE SUPERHEAT ON SUBCOOLED WATER FLOW BOILING CRITICAL HEAT FLUX IN A SUS304 CIRCULAR TUBE AT HIGH LIQUID REYNOLDS NUMBER [C] . Hata K, Fukuda K, Masuzaki S International topical meeting on nuclear reactor thermal hydraulics . 2015

机译：SUS304圆管中高液体雷诺数下沸腾起始表面过热对过冷沸腾沸腾临界热通量的影响
5. Wall heat flux partitioning during subcooled flow film boiling of water on a vertical surface. [D] . Meduri, Phani Kiran. 2007

机译：在垂直表面上过冷的水膜沸腾期间壁热通量分配。
6. Local data of heat flux wall temperature and the void phase along the boiling curve during vertical subcooled flow boiling of refrigerant Novec 649 at a copper wall [O] . Moritz Bruder, Ludwig Sembach, Veronika Krumova, 2018

机译：制冷剂Novec 649在铜壁上的垂直过冷流动沸腾过程中沿沸腾曲线的热通量壁温和空隙相的局部数据
7. Pressure drop, heat transfer, critical heat flux, and flow stability of two-phase flow boiling of water and ethylene glycol/water mixtures - final report for project "Efficent cooling in engines with nucleate boiling." [O] . Yu, W., France, D. M., Routbort, J. L. (Energy Systems) 2011

机译：水和乙二醇/水混合物的两相流沸腾的压降，传热，临界热通量和流动稳定性 - 项目的最终报告“具有泡核沸腾的发动机中的有效冷却”。
8. Pressure Drop, Heat Transfer, Critical Heat Flux, and Flow Stability of Two-Phase Flow Boiling Of Water and Ethylene Glycol/Water Mixtures - Final Report for Project 'Efficient Cooling In Engines with Nucleate Boiling.' [R] . Yu, W., France, D. M., Routbort, J. L. 2011

机译：水和乙二醇/水混合物的两相流沸腾的压降，传热，临界热流和流动稳定性 - 项目“核子沸腾发动机中的高效冷却”的最终报告。

Review on high heat flux flow boiling of refrigerants and water for electronics cooling

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