采用计算机记录毛细抽吸量实时变化曲线的方法,研究了环路热管吸液芯对不同工质的毛细抽吸特性,结果表明所有的吸液芯毛细抽吸过程均可分阶段采用玻耳兹曼方程进行描述,其误差在启动阶段和稳健抽吸阶段分别在5%和1%以内.工质的表面张力越大、密度越大,吸液芯的毛细抽吸量就越大;工质的表面张力越大、黏度越小,毛细抽吸速度越大.对孔隙率为45%~56%的吸液芯进行毛细抽吸实验发现,随着孔隙率的增大,抽吸速度和毛细抽吸量均随之增大,可见适当提高吸液芯的孔隙率有助于提高环路热管的性能.
参考文献
| [1] | 任川,吴清松.孔隙率和渗透率对LHP主芯性能影响研究[J].工程热物理学报,2007(04):634-636. |
| [2] | Williams RR;Harris DK .A device and technique to measure the heat transfer limit of a planar heat pipe wick[J].Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics,2006(3):277-284. |
| [3] | Chuan Ren;Qing-Song Wu;Mao-Bin Hu .Heat Transfer in Loop Heat Pipe's Wick: Effect of Porous Structure Parameters[J].Journal of thermophysics and heat transfer,2007(4):702-711. |
| [4] | Z. C. Liu;W. Liu;A. Nakayama .Flow and heat transfer analysis in porous wick of CPL evaporator based on field synergy principle[J].Heat and mass transfer,2007(12):1273-1281. |
| [5] | Tarik Kaya;John Goldak .Numerical analysis of heat and mass transfer in the capillary structure of a loop heat pipe[J].International Journal of Heat and Mass Transfer,2006(17/18):3211-3220. |
| [6] | Xiao Huang;George Franchi;Feng Cai .Characterization of porous bi-modal Ni structures[J].Journal of porous materials,2009(2):165-173. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%