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Volume 35 Issue 3
Mar.  2009
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Journal of Beijing University of Aeronautics and Astronautics  > 2009  >  35(3): 313-317.
Xu Guoqiang, Wang Meng, Wu Hong, et al. Numerical analysis of flow and heat transfer characteristics of Y-fractal-link micro channel networks[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(3): 313-317. (in Chinese)
Citation: Xu Guoqiang, Wang Meng, Wu Hong, et al. Numerical analysis of flow and heat transfer characteristics of Y-fractal-link micro channel networks[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(3): 313-317. (in Chinese)
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Numerical analysis of flow and heat transfer characteristics of Y-fractal-link micro channel networks

  • National Key Lab on Air Engine,Beijing University of Aeronautics and Astronautics, Beijing 100191, China

  • Received Date: 01 Apr 2008
  • Publish Date: 31 Mar 2009
    Abstract
  • A new fractal structure, Y-fractal-link micro channel network, was proposed for cooling the inside of cubic chip. Numerical simulations of laminar heat and flow transfer were conducted for both Y-fractal-link micro channel network and straight parallel micro channel network. In addition, the optimization of this new structure was discussed with some important parameters. Results reveal that with the same convective surface area and hydraulic diameter, Y-fractal-link micro channel network could significantly improve the heat transfer performance of the heat sink and decrease the pressure drop through the micro channel, so this new structure will be useful for cooling devices with high thermal load. In the range of study, the best integrative performance of Y-fractal-link micro channel heat sink is obtained when the number of branching levels is 3; the bifurcation angle is 60 and the number of branches at each level is 2. These results are beneficial to the design and improvement of heat sink configuration.

     

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  • [1] 张兆光.电子设备冷却设计手册[M].安徽:电子工业部第十四研究所, 1983:149-162 Zhang Zhaoguang. The cooling of electronic equipment design handbook[M]. Anhui:The Fourteen Graduate School of Electronic Industry Department, 1983:149-162(in Chinese) [2] Tuekerman D B,Pease R F W. Higher-performance heat sink for VLSI IEEE Electron Device Lett. :IEEE,1981:126-277 [3] Bejan A. Shape and structure, from engineering to nature[M]. Cambridge: Cambridge University Press, 2000 [4] Pence D V. Improved thermal efficiency and temperature uniformity using fractal-Like branching channel networks International Conference on Heat Transfer and Transport Phenomena in Microscale. Begell House, New York: , 2000: 142-148 [5] Murray C D. The physiological principle of minumum work, in the vascular system and the cost of blood-volume Proc Natl Acad Sci. USA: , 1926:207-214 [6] Pence D V. Reduced pumping power and wall temperature in microchannel heat sinks with fractal-Like branching channel Networks[J]. Microscale Thermophys Eng, 2002, 6(4):319-330 [7] Wang Xiangqi, Mujumdar A S, Yap C. Numerical analysis of blockage and optimization of heat transfer performance of fractal-like microchannel nets[J]. Journal of Electronic Packaging,2006, 128(3):38-45
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