超疏水表面膜态池沸腾传热实验研究

工程热物理学报 , 2015, 36(8): 1769-1773.

超疏水表面膜态池沸腾传热实验研究

李佳琦 ^1, , 苏悠悠 ^2, , 范利武 ^3, , 籍婷 ^4, , 王幻利 ^5, , 俞自涛 ^6,

1.浙江大学热工与动力系统研究所,杭州,310027

2.浙江大学热工与动力系统研究所,杭州,310027

3.浙江大学热工与动力系统研究所,杭州,310027

4.浙江大学热工与动力系统研究所,杭州,310027

5.浙江大学热工与动力系统研究所,杭州,310027

6.浙江大学热工与动力系统研究所,杭州,310027

基金项目: 中央高校基本科研业务费专项资金(No.2014QNA4009) 国家自然科学基金项目(No.51206142)

关键词：超疏水表面 , 膜态沸腾 , 池沸腾 , 过冷度 , 淬火

An Experimental Study of Pool Film Boiling Heat Transfer on Superhydrophobic Surfaces

Keywords： superhydrophobic surface , film boiling , pool boiling , subcooling degree , quenching

通过纳米颗粒沉积法在不锈钢球上制备了静态接触角大于160°的超疏水表面,并采用淬火法对该不锈钢球在过冷度为0℃～25℃的去离子水中的瞬态池沸腾传热过程进行了实验研究.结果表明,由于表面的超疏水特性,整个瞬态沸腾过程直至极低表面过热度时始终处于膜态沸腾状态.不锈钢球的冷却速率随着过冷度的增大而提高,其膜态沸腾的热流密度和平均努塞尔数也随着过冷度的增加而近似呈线性增长的趋势.对汽膜演化过程的可视化观察发现,在过冷度较大时蒸汽产生量减少,导致汽膜层扰动减弱、汽液相界面趋于平稳.

参考文献

[1]	Quéré, D..Leidenfrost dynamics[J].Annual Review of Fluid Mechanics,2013:197-215.
[2]	Y. Takata;S. Hidaka;J.M. Cao;T. Nakamura;H. Yamamoto;M. Masuda;T. Ito .Effect of surface wettability on boiling and evaporation[J].Energy,2005(2/4):209-220.
[3]	Shirtcliffe, N.J.;McHale, G.;Atherton, S.;Newton, M.I. .An introduction to superhydrophobicity[J].Advances in colloid and interface science,2010(1/2):124-138.
[4]	Minglin Ma;Randal M.Hill .Superhydrophobic surfaces[J].Current opinion in colloid & interface science,2006(4):193-202.
[5]	Nakajima A.;Watanabe T.;Takai K.;Yamauchi G.;Fujishima A.;Hashimoto K. .Transparent superhydrophobic thin films with self-cleaning properties[J].Langmuir: The ACS Journal of Surfaces and Colloids,2000(17):7044-7047.
[6]	YASUYUKI TAKATA;SUMITOMO HIDAKA;TAKASHI URAGUCHI .Boiling Feature on a Super Water-Repellent Surface[J].Heat Transfer Engineering,2006(8):25-30.
[7]	陈粤,刘俊威,莫冬传,吕树申.超疏水纳米结构表面池沸腾特性[J].工程热物理学报,2011(04):634-636.
[8]	Xinwei Wang;Siwei Zhao;Hao Wang;Tingrui Pan.Bubble formation on superhydrophobic-micropatterned copper surfaces[J].Applied thermal engineering: Design, processes, equipment, economics,2012:112-119.
[9]	WANG Xin-Wei,SONG Yong-Xin,WANG Hao.Observation of Nucleate Boiling on a Fine Copper Wire with Superhydrophobic Micropatterns[J].中国物理快报（英文版）,2012(11):140-142.
[10]	Amy Rachel Betz;James Jenkins;Chang-Jin "CJ" Kim;Daniel Attinger .Boiling heat transfer on superhydrophilic, superhydrophobic, and superbiphilic surfaces[J].International Journal of Heat and Mass Transfer,2013(2):733-741.
[11]	Li-Wu Fan;Jia-Qi Li;Dan-Yang Li;Liang Zhang;Zi-Tao Yu.Regulated transient pool boiling of water during quenching on nanostructured surfaces with modified wettability from superhydrophilic to superhydrophobic[J].International Journal of Heat and Mass Transfer,2014:81-89.

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材料期刊网

超疏水表面膜态池沸腾传热实验研究

An Experimental Study of Pool Film Boiling Heat Transfer on Superhydrophobic Surfaces

参考文献