Effect of Mesh Wick Geometry on the Maximum Heat Transfer Rate of Flat-Micro Heat Pipes (FMHPs) with Multi-Heat Sources and Sinks

Bimal Subedi1; Sung Hyoun Kim; Seok Pil Jang; Mark A. Kedzierski

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Effect of Mesh Wick Geometry on the Maximum Heat Transfer Rate of Flat-Micro Heat Pipes (FMHPs) with Multi-Heat Sources and Sinks

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November 26, 2018

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Bimal Subedi1, Sung Hyoun Kim, Seok Pil Jang, Mark A. Kedzierski

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Solar Energy

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Journals

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Energy efficiency

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Subedi1, B. , Kim, S. , Jang, S. and Kedzierski, M. (2018), Effect of Mesh Wick Geometry on the Maximum Heat Transfer Rate of Flat-Micro Heat Pipes (FMHPs) with Multi-Heat Sources and Sinks, Solar Energy, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=926090 (Accessed April 26, 2024)

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Created November 25, 2018, Updated October 12, 2021

Effect of Mesh Wick Geometry on the Maximum Heat Transfer Rate of Flat-Micro Heat Pipes (FMHPs) with Multi-Heat Sources and Sinks

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