重点研究的是水和乙醇在放置了强化元件的光滑铜表面上的池核沸腾传热性能。该强化元件对部分加热表面上方的空间进行限制,使液体存在的空间就被分为交替存在的受限空间和自由空间。本研究中所探讨的主要参数是热通量(13~400 kW/m2)和受限空间尺度(0.2 mm,0.5 mm,无限制结构)。实验结果表明,对水和乙醇而言,这样的强化元件都可获得良好的沸腾传热特性.可视化结果表明,几乎所有有效核化区域都在受限空间内,即使在高过热度下自由空间内也很少出现有效核化点。
An experimental study of pool boiling on the modified copper enhanced structure,with the separate ordinary confined spaces and the open channels between the confined spaces structures was conducted with water and ethanol.The heat flux investigated in this study ranged with 13~400 kW/m~2 and confined space dimensions were specified at 0.15 mm,0.5 mm,no confined.The results show that the boihng performance of both water and ethanol can be enhanced on the plain surfaces covered with the enhanced structures.The visual observation indicated that most of the active nucleation sites emerged in the confined space covered by enhanced structures even at high superheat.
参考文献
| [1] | McHale, JP;Garimella, SV .Bubble nucleation characteristics in pool boiling of a wetting liquid on smooth and rough surfaces[J].International Journal of Multiphase Flow,2010(4):249-260. |
| [2] | Stephan Kotthoff;Dieter Gorenflo;Elisabeth Danger;Andrea Luke .Heat transfer and bubble formation in pool boiling: Effect of basic surface modifications for heat transfer enhancement[J].International Journal of Thermal Sciences,2006(3):217-236. |
| [3] | Ralph L. Webb .Odyssey of the Enhanced Boiling Surface[J].Journal of heat transfer: Transactions of the ASME,2004(6):1051-1059. |
| [4] | A. K. Das;P. K. Das;P. Saha .Performance of different structured surfaces in nucleate pool boiling[J].Applied thermal engineering: Design, processes, equipment, economics,2009(17/18):3643-3653. |
| [5] | Scott G.Liter;Massoud Kaviany .Pool-boiling CHF enhancement by modulated porous-layer coating: theory and experiment[J].International Journal of Heat and Mass Transfer,2001(22):4287-4311. |
| [6] | Shanghua Li;Richard Furberg;Muhammet S. Toprak;Bjoern Palm;Mamoun Muhammed .Nature-Inspired Boiling Enhancement by Novel Nanostructured Macroporous Surfaces[J].Advanced functional materials,2008(15):2215-2220. |
| [7] | J. Bonjour;M. Lallemand .Flow patterns during boiling in a narrow space between two vertical surfaces[J].International Journal of Multiphase Flow,1998(6):947-960. |
| [8] | Camil-Daniel Ghiu;Yogendra K. Joshi .Pool Boiling Using Thin Enhanced Structures Under Top-Confined Conditions[J].Journal of heat transfer: Transactions of the ASME,2006(12):1302-1311. |
| [9] | In Cheol Bang;Soon Heung Chang .Boiling heat transfer performance and phenomena of Al_2O_3-water nano-fluids from a plain surface in a pool[J].International Journal of Heat and Mass Transfer,2005(12):2407-2419. |
| [10] | Zhao YH.;Tsuruta T.;Ji CY. .Experimental study of nucleate boiling heat transfer enhancement in confined space[J].Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics,2003(1):9-16. |
| [11] | Pastuszko R .Boiling heat transfer enhancement in subsurface horizontal and vertical tunnels[J].Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics,2008(8):1564-1577. |
| [12] | Prasad L;Alam MS;Gupta SC;Agarwal VK .Enhanced boiling of methanol on copper coated surface[J].Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology,2007(7):901-906. |
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