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    Journals >Laser & Optoelectronics Progress >Volume 50 >Issue 4 >Page 41202 > Article
    • Laser & Optoelectronics Progress
    • Vol. 50, Issue 4, 41202 (2013)
    Effect of Channel Structures on the Fluid Flow and Heat Transfer in Micro-Channels
    Liu Dong* and Jiang Bin
    Author Affiliations
  • [in Chinese]
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    DOI: 10.3788/lop50.041202 Cite this Article Set citation alerts
    Liu Dong, Jiang Bin. Effect of Channel Structures on the Fluid Flow and Heat Transfer in Micro-Channels[J]. Laser & Optoelectronics Progress, 2013, 50(4): 41202 Copy Citation Text show less
    References

    [1] Liu Jun, Wu Pengli, Gao Ming. Wander and spreading of polarized and partially coherent laser propagation on slant path in turbulence atmospheric[J]. Chinese J. Lasers, 2012, 39(10): 1013001

    [2] Liu Kui, Feng Guoying, Deng Guoliang et al.. Difference in microstructures induced by femtosecond laser scanning on silicon surface at different temperatures[J]. Chinese J. Lasers, 2012, 39(8): 0803003

    [3] Xu Gang, Liao Yong, Meng Fanbao et al.. Characteristics of two-layer patch microstrip antenna for high power wide-band microwave radiation[J]. High Power Laser and Particles Brams, 2009, 21(12): 1839~1844

    [4] Tao Yujia, Huai Xiulan, Li Zhigang et al.. Advancement of cooling techniques in high-power solid state laser[J]. Laser Journal, 2007, 28(2): 11~12

    [5] D. B. Tuckerman, R. F. W. Pease. High performance heat sinking for VLSI [J]. IEEE Electron Device Lett., 1981, 2(5): 126~129

    [6] X. F. Peng, G. P. Peterson. The effect of thermofluid and geometrical parameters on convection of liquids through rectangular microchannels [J]. Internat. J. Heat & Mass Transfer, 1995, 38(4): 755~758

    [7] X. F. Peng, G. P. Peterson. Convective heat transfer and flow friction for water flow in microchannel structures [J]. Internat. J. Heat & Mass Transfer, 1996, 39(12): 2599~2608

    [8] John P. Mchale, Suresh V. Garimella. Heat transfer in trapezoidal microchannels of various aspect ratios [J]. Internat. J. Heat & Mass Transfer, 2010, 53(1-3): 365~375

    [9] Wang Yaqing, Liu Minghou, Liu Dong et al.. Effect of test surface temperature on the non-boiling heat transfer performance in spray cooling[J]. Chinese J. Lasers, 2010, 37(1): 115~120

    [10] Wang Yaqing, Liu Minghou, Liu Dong et al.. Experiment study on non-boiling heat transfer performance in spray cooling for high-power laser[J]. Chinese J. Lasers, 2009, 36(8): 1973~1978

    [11] Dong Liu, Minghou Liu, Dan Xing et al.. Flow and heat transfer performance of a mini-channel radiator with cylinder disturbed flow [J]. Experimental Thermal and Fluid Science, 2011, 35(6): 1202~1208

    [12] Liu Dong, Liu Minghou, Wang Yaqing. Effect of cylinder disturbed flow on heat transfer performance of mini-channel radiators[J]. Chinese J. Lasers, 2010, 37(10): 2508~2514

    [13] W. M. Kays, M. E. Crawford. Convection Heat and Mass Transfer [M]. New York: Mcgraw-Hill, 1993

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    Liu Dong, Jiang Bin. Effect of Channel Structures on the Fluid Flow and Heat Transfer in Micro-Channels[J]. Laser & Optoelectronics Progress, 2013, 50(4): 41202
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