超轻多孔金属泡沫表面的池沸腾传热

X. Ji, Q. Xue, Jiliang Xu, Jia Xu
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引用次数: 0

摘要

以去离子水为工质,对超轻多孔金属泡沫表面的池沸腾传热进行了研究。金属泡沫的孔隙密度为30至60ppi(每英寸孔隙数),厚度为2.0至5.0mm。研究了热流密度、表面过热度、液体温度和金属泡沫特征参数对池沸腾传热的影响。研究发现,金属泡沫表面能显著增强池内沸腾传热,降低沸腾起始处的表面过热度。孔隙密度和厚度都存在强化沸腾传热的最佳值。金属泡沫表面沸腾换热系数约为普通表面沸腾换热系数的2~3倍。其重要原因是由于金属泡沫具有高孔隙率和多尺度孔径的独特性质。较大的孔隙有助于释放产生的蒸汽,而较小的孔隙有助于将液体吸向加热器表面,从而减少气液界面处的剪切应力,从而实现逆流流动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pool boiling heat transfer on ultra-light porous metal foam surfaces
Experiments were conducted to study pool boiling heat transfer on ultra-light porous metal foam surfaces, with deionized water as working fluid. The metal foams have pore densities from 30 to 60ppi (pores per inch) and thickness from 2.0 to 5.0mm. The effects of heat flux, surface superheat, liquid temperature and characteristic parameters of metal foam on pool boiling heat transfer were investigated. It is found that metal foam surfaces can significantly enhance pool boiling heat transfer and lower the surface superheat at the boiling incipience. Pore density and thickness exists an optimal value to strengthen boiling heat transfer. The boiling heat transfer coefficient on the metal foam surfaces is about 2~3 times of those on the plain surfaces. The significant reasons are due to the distinct nature of high porosity and multi-scale pore sizes of metal foams. The larger pores help to release the created vapor while the smaller pores help to suck the liquid toward the heater surface, decreasing the shear stress at the vapor-liquid interface for the counter-current flow.
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