Thermal cooling enhancement techniques for electronic components

P. Naphon; S. Wiriyasart; S. Wongwises

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Thermal cooling enhancement techniques for electronic components

机译：电子元件的散热增强技术

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Due to highly effective thermal spreaders, the vapor chambers have been widely applied on the electronic cooling. An effective thermal spreader can achieve more uniform heat flux distribution and thus enhance heat dissipation of heat sinks. This work investigates the thermal performance characteristics plate-fin vapor chamber. Parametric studies including different operating operation of CPU, coolant types, working fluids, filled ratios, flow direction of coolants, heat sink configurations, and the effect of the relevant parameters on the cooling performance in terms of the thermal resistance was considered and discussed. The results showed that the relevant parameters have a significant influence on the thermal resistance of the vapor chamber.

机译：由于高效的散热器，蒸气室已广泛应用于电子冷却。有效的散热器可以实现更均匀的热通量分布，从而增强散热器的散热效果。这项工作研究了板翅式蒸气室的热性能特征。考虑并讨论了包括CPU的不同操作，冷却液类型，工作流体，填充比，冷却液的流向，散热片配置以及相关参数对散热性能的热阻影响等参数研究。结果表明，相关参数对蒸气室的热阻有重要影响。

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来源
《Letters in heat and mass transfer》 |2015年第2期|140-145|共6页
作者
P. Naphon; S. Wiriyasart; S. Wongwises;
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作者单位

Thermo-Fluids and Heat Transfer Enhancement Lab. (TFHT), Department of Mechanical Engineering, Faculty of Engineering, Srinakharinwirot University, 63 Rangsit-Nakhornnayok Rd., Ongkharak, Nakhorn-Nayok, 26120, Thailand;

Thermo-Fluids and Heat Transfer Enhancement Lab. (TFHT), Department of Mechanical Engineering, Faculty of Engineering, Srinakharinwirot University, 63 Rangsit-Nakhornnayok Rd., Ongkharak, Nakhorn-Nayok, 26120, Thailand;

Fluid Mechanics, Thermal Engineering and Multiphase Flow Research Lab. (FUTURE), Department of Mechanical Engineering, King Mongkut's University of Technology Thonburi, 91 Suksawas 48, Bangmod, Bangkok 10140, Thailand;

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正文语种 eng
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关键词
Thermal cooling enhancement; Vapor chamber; Electronic cooling;

机译：热冷却增强;蒸气室;电子冷却;
入库时间 2022-08-18 00:18:54

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2. Thermal performance of heat sink using nano-enhanced phase change material (NePCM) for cooling of electronic components [J] . Kumar Anuj, Kothari Rohit, Sahu Santosh Kumar, Microelectronics reliability . 2021,第Juna期

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3. Performance investigation of thermally enhanced polymer composite materials for microelectronics cooling [J] . Eveloy Valerie, Rodgers Peter, Diana Antoine Microelectronics journal . 2015,第12PTaA期

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4. Challenges in Electronic Cooling ― Opportunities for Enhanced Thermal Management Techniques ― Microprocessor Liquid Cooled Minichannel Heat Sink ― [C] . Roger Schmidt, The American Society of Mechanical Engineers International Conference on Microchannels and Minichannels . 2003

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5. Hybrid solid-state/fluidic cooling for thermal management of electronic components [D] . Sahu, Vivek 2011

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6. Thermal Effectiveness Enhancement of Autoclaved Aerated Concrete Wall with PCM-Contained Conical Holes to Reduce the Cooling Load [O] . Atthakorn Thongtha, Aitthi Khongthon, Thitinun Boonsri, 2019

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7. Thermal Cooling Techniques of Electronic Components [O] . 岡本芳三 / 神永文人 / 佐藤和義 / 高嶋正武 / 堀内洋治 / 渋谷嗣晴, オカモトヨシゾウ / カミナガフミト / サトウカズヨシ / タカシママサタケ / ホリウチヨウジ / シブタニツグハル, OKAMOTO yoshizo / KAMINAGA fumito / SATOU kazuyoshi / TAKASHIMA masatake / HORIUCHI yoji / SHIBUTANI tsuguharu 1990

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Thermal cooling enhancement techniques for electronic components

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