水合盐基无机复合相变材料及其在电池热管理中的应用研究进展
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王森, 马力群, 侯文杰, 安周建, 张东, Pea Hamir Johan Mombeki
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Research Progress on Hydrated Salt-Based Inorganic Composite Phase Change Materials and Their Applications in Battery Thermal Management
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Sen WANG, Liqun MA, Wenjie HOU, Zhoujian AN, Dong ZHANG, Hamir Johan Mombeki Pea
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表4 各类导热增强剂的传热强化效果
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Tab. 4 Heat transfer enhancement effect of various types of thermal conductivity enhancers
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| 类型 | 水合盐相变材料 | 导热增强剂 | 导热增强剂质量分数/% | 热导率提升幅度/% | 来源 |
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| 高导热纳米颗粒 | Na2S2O3⋅5H2O | 石墨纳米片 | 7 | 155.33 | 文献[43] | | 碳纳米管 | 249.61 | | Na2HPO4⋅12H2O | 纳米氧化铁(α-Fe2O3) | 0.2 | 90.8 | 文献[47] | | KAl(SO4)2⋅12H2O-Na2SO4⋅10H2O | 纳米碳颗粒 | 1 | 66.7 | 文献[48] | | 高导热多孔介质 | K2HPO4⋅3H2O-NaH2PO4⋅2H2O-Na2S2O3⋅5H2O-H2O | 改性膨胀石墨 | 19.29 | 1 230 | 文献[53] | | CH3COONa⋅3H2O | 泡沫铜 | 22.8 | 176 | 文献[50] | | Na2HPO4⋅12H2O | 膨胀石墨 | 6 | 340 | 文献[54] | | CH3COONa⋅3H2O | 膨胀石墨 | 7 | 92.47 | 文献[13] | | Na2S2O3⋅5H2O-CH3COONa⋅3H2O | 膨胀石墨 | 8 | 290.4 | 文献[55] | | CH3COONa⋅3H2O | 膨胀石墨 | 3 | 114.6 | 文献[56] | | CH3COONa⋅3H2O | 50目膨胀石墨 | 5 | 187.9 | 文献[57] | | 80目膨胀石墨 | 172.4 | | 100目膨胀石墨 | 156.9 | | 改性CaCl2⋅6H2O | 50目膨胀石墨 | 15 | 623.1 | 文献[58] | | 80目膨胀石墨 | 518.1 | | 100目膨胀石墨 | 476.2 |
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