摘要: |
作为一种新型高效传热元件,平板微热管阵列解决了单一微热管热通量和热输运能力有限的问题,提升了热管整体的可靠性,克服了传统圆热管在应用中出现的接触面积小、形状限制、接触热阻等局限。本文总结了平板微热管阵列的内部结构、吸液芯种类、制造和封装工艺,介绍了针对平板微热管阵列性能进行的实验、理论研究及建立的数学模型,阐述了平板微热管阵列在多个领域的应用现状,并提出了下一步的研究重点,为平板微热管阵列的研究提供参考。 |
关键词: 平板微热管阵列 槽道 吸液芯结构 传热 |
DOI: |
投稿时间:2019-12-04 修订日期:2020-01-28
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基金项目:国家重点研发计划(2018YFB0105404)和国家自然科学基金(51706232)资助项目。 |
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Research Status and Progress in Flat Plate Micro Heat Pipe Arrays |
Yang Lulu,Xu Hongbo,Wang Huihui,Zhang Hainan,Tian Changqing |
(Beijing Key Laboratory of Thermal Science and Technology, Technical Institute of Physics and Chemistry, CAS;University of Chinese Academy of Sciences;SONGZ Automobile Air Conditioning CO. LTD;Shanghai New Energy Automotive Air Conditioning Engineering Technology Research Center) |
Abstract: |
Flat plate micro heat pipe array (FPMHPA) is a new type of high-efficiency heat transfer element, and its introduction solves the problem of limited heat flux and heat transport capacity of a single micro heat pipe. Furthermore, it improves the overall reliability of the heat pipe. Given its superior flat plate, the FPMHPA overcomes the limitations of small contact area, shape, and contact thermal resistance of a conventional circular heat pipe in typical applications. In this study, the internal structure of the FPMHPA, type of wick, and manufacturing and packaging processes are summarized. Furthermore, theoretical research, mathematical model for performance, and experimental tests of the FPMHPA are introduced. Additionally, the application status of FPMHPA in many fields is expounded. Hence, this review provides focus areas for future research and reference for the development of the FPMHPA. |
Key words: flat plat micro heat pipe array groove wick structure heat transfer |