定填充比蒸汽室不同冷却剂的瞬态热性能

IF 1.2 4区工程技术 Q3 THERMODYNAMICS

Journal of Thermal Science and Technology Pub Date : 2021-01-01 DOI:10.1299/JTST.2021JTST0028

S. Wiriyasart, P. Naphon

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引用次数: 2

摘要

本文研究了以水和铁磁流体为冷却剂的恒填充比蒸汽室的热工性能和提供冷却范围的热优化。研究了冷凝器侧液体流速为0.029 ~ 0.099 kg/s，输入功率为100 ~ 300 W，热源尺寸为30 mm × 30 mm，冷却剂分别为φ= 0%、φ= 0.005%和φ= 0.05%的水和铁磁流体。结果表明:在m = 0.075 kg/s条件下，传统蒸汽室的最小热阻为0.126 C/W;在φ= 0.005%条件下，微通道蒸汽室的最小热阻为0.077 C/W;在一定填充率为26%和33%、热源尺寸为30 mm × 30 mm、质量流量≥0.042 kg/s的条件下，带和不带迷你通道的蒸汽室可承受100 ~ 200 W的热负荷。然而，为了实现100-300 W的高热负荷范围，采用φ= 0.005%的Fe3O4铁磁流体的迷你通道蒸汽室覆盖了整个冷却范围，并且推荐用于电子冷却应用。

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Transient thermal performance of constant fill ratio vapor chamber with different coolants

In this study, a constant fill ratio vapor chamber using water and ferrofluid as the coolants on the thermal performance and thermal optimization to provide the cooling range are presented. The liquid flow rate of the condenser side ranges from 0.029−0.099 kg/s, the input power of 100−300 W, heat source size of 30 mm × 30 mm, and the water and ferrofluid with φ=0 %, φ=0.005 % and φ=0.05 % as coolants are investigated. The results indicate that the minimum thermal resistance of a traditional vapor chamber of 0.126 C/W at m = 0.075 kg/s and vapor chamber with a mini channel of 0.077 C/W at m = 0.049 kg/s at φ=0.005 % are obtained. The vapor chamber with and without mini channel at a certain fill ratio of 26 % and 33 %, the heat source size of 30 mm × 30 mm, and the mass flow rate of ≥ 0.042 kg/s are withstanding the heat load range from 100–200 W. However, to achieve the high heat load range from 100–300 W, the vapor chamber with mini channel using the Fe3O4 ferrofluid φ=0.005 % is covering the entire cooling range and is recommended in electronic cooling applications.

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来源期刊

Journal of Thermal Science and Technology 物理-热力学

CiteScore

2.30

自引率

8.30%

发文量

审稿时长

5 months

期刊介绍： JTST covers a variety of fields in thermal engineering including heat and mass transfer, thermodynamics, combustion, bio-heat transfer, micro- and macro-scale transport phenomena and practical thermal problems in industrial applications.