Experimental study on the thermal characteristics of a 3D thermosyphon heat sink

Phase change heat transfer has received extensive attention in the thermal management of electronic devices. Most studies of heat pipe or vapor chamber were limited to one- or two-dimensional heat transfer mode. Enhancing the phase change heat transfer to three-dimensional mode in heat sinks and exp...

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Main Authors: Qin, S. Y., Ji, R. Y., Yang, C. M., Jin, L. W., Yang, Chun, Wang, Y., Meng, X. Z.
Other Authors: School of Mechanical and Aerospace Engineering
Format: Article
Language:English
Published: 2023
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Online Access:https://hdl.handle.net/10356/169010
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1690102023-06-27T01:19:45Z Experimental study on the thermal characteristics of a 3D thermosyphon heat sink Qin, S. Y. Ji, R. Y. Yang, C. M. Jin, L. W. Yang, Chun Wang, Y. Meng, X. Z. School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering 3D Thermosyphon Phase Change Heat Transfer Phase change heat transfer has received extensive attention in the thermal management of electronic devices. Most studies of heat pipe or vapor chamber were limited to one- or two-dimensional heat transfer mode. Enhancing the phase change heat transfer to three-dimensional mode in heat sinks and exploring the thermal behavior of the heat sinks deserve a dedicated study. In this paper, a three-dimensional thermosyphon (3D-TS) heat sink combining the superiorities of the vapor chamber, thermosyphon and folded fins was experimentally investigated. The experimental reliability was validated and consolidated by the heat loss analysis, and an iteration method was proposed to estimate the saturation temperature to facilitate the in-depth analysis of the results. The coupling characteristics of the air forced convection and phase change heat transfer, and the effects of the heating power and air volume flow rate on the thermal resistance of 3D-TS were involved in the discussion. The main results indicate that the overall thermal resistance exhibits a negative correlation with the heating power and the air volume flow rate. The lowest thermal resistance of 0.14 K·W−1 was achieved with Qtotal = 300 W and 100 CFM air volume flow rate. High temperature on the folded fins indicates that the phase change heat transfer extends from the flat vapor chamber to the vertical thermosyphon tubes. It is also found that for a small heating power, a relatively large air volume flow rate is not able to further reduce the overall thermal resistance due to inadequate phase change intensity. The proposed heat sink is expected to solve the heat dissipation problems for densely packed electronic devices, which can produce favorable performance according to the input heating power and appropriate air volume flow rate. The authors are grateful for the support of the Fundamental Research Funds for the Central Universities (xzy022021007) and the China Postdoctoral Science Foundation Funded Project (2021M692534). 2023-06-27T01:19:45Z 2023-06-27T01:19:45Z 2023 Journal Article Qin, S. Y., Ji, R. Y., Yang, C. M., Jin, L. W., Yang, C., Wang, Y. & Meng, X. Z. (2023). Experimental study on the thermal characteristics of a 3D thermosyphon heat sink. Applied Thermal Engineering, 225, 120193-. https://dx.doi.org/10.1016/j.applthermaleng.2023.120193 1359-4311 https://hdl.handle.net/10356/169010 10.1016/j.applthermaleng.2023.120193 2-s2.0-85149378557 225 120193 en Applied Thermal Engineering © 2023 Elsevier Ltd. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Mechanical engineering
3D Thermosyphon
Phase Change Heat Transfer
spellingShingle Engineering::Mechanical engineering
3D Thermosyphon
Phase Change Heat Transfer
Qin, S. Y.
Ji, R. Y.
Yang, C. M.
Jin, L. W.
Yang, Chun
Wang, Y.
Meng, X. Z.
Experimental study on the thermal characteristics of a 3D thermosyphon heat sink
description Phase change heat transfer has received extensive attention in the thermal management of electronic devices. Most studies of heat pipe or vapor chamber were limited to one- or two-dimensional heat transfer mode. Enhancing the phase change heat transfer to three-dimensional mode in heat sinks and exploring the thermal behavior of the heat sinks deserve a dedicated study. In this paper, a three-dimensional thermosyphon (3D-TS) heat sink combining the superiorities of the vapor chamber, thermosyphon and folded fins was experimentally investigated. The experimental reliability was validated and consolidated by the heat loss analysis, and an iteration method was proposed to estimate the saturation temperature to facilitate the in-depth analysis of the results. The coupling characteristics of the air forced convection and phase change heat transfer, and the effects of the heating power and air volume flow rate on the thermal resistance of 3D-TS were involved in the discussion. The main results indicate that the overall thermal resistance exhibits a negative correlation with the heating power and the air volume flow rate. The lowest thermal resistance of 0.14 K·W−1 was achieved with Qtotal = 300 W and 100 CFM air volume flow rate. High temperature on the folded fins indicates that the phase change heat transfer extends from the flat vapor chamber to the vertical thermosyphon tubes. It is also found that for a small heating power, a relatively large air volume flow rate is not able to further reduce the overall thermal resistance due to inadequate phase change intensity. The proposed heat sink is expected to solve the heat dissipation problems for densely packed electronic devices, which can produce favorable performance according to the input heating power and appropriate air volume flow rate.
author2 School of Mechanical and Aerospace Engineering
author_facet School of Mechanical and Aerospace Engineering
Qin, S. Y.
Ji, R. Y.
Yang, C. M.
Jin, L. W.
Yang, Chun
Wang, Y.
Meng, X. Z.
format Article
author Qin, S. Y.
Ji, R. Y.
Yang, C. M.
Jin, L. W.
Yang, Chun
Wang, Y.
Meng, X. Z.
author_sort Qin, S. Y.
title Experimental study on the thermal characteristics of a 3D thermosyphon heat sink
title_short Experimental study on the thermal characteristics of a 3D thermosyphon heat sink
title_full Experimental study on the thermal characteristics of a 3D thermosyphon heat sink
title_fullStr Experimental study on the thermal characteristics of a 3D thermosyphon heat sink
title_full_unstemmed Experimental study on the thermal characteristics of a 3D thermosyphon heat sink
title_sort experimental study on the thermal characteristics of a 3d thermosyphon heat sink
publishDate 2023
url https://hdl.handle.net/10356/169010
_version_ 1772825713346347008