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对比去离子水和应用具有自润湿特性的正丁醇水溶液,进行Marangoni效应对微加热面汽泡行为影响的研究。通过高速摄像技术观测到了去离子水中的泡顶射液流和正丁醇溶液中的多射液流现象。相应的数值模拟表明,Marangoni效应引起过冷去离子水从过热表面向泡顶流动,而引起正丁醇溶液向相反方向流动,即过冷溶液流向过热表面。多射液流现象持续时间比去离子水的长,还可引起泡底微液层的瞬时紊乱现象。多射液流现象发生时,汽泡附近的温度梯度较大,而速度梯度则接近垂直于加热表面。正丁醇溶液的模拟结果与实验观测一致,表明表面张力及所引起的Marangoni效应对分析不同流体的过冷核态沸腾机理至关重要。 相似文献
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主要分析了脱硫反应产物层形成过程中的传递反应过程特性。研究发现,脱硫剂颗粒产物层形成过程与蒂勒数密切相关,至产物层形成时转化率仅仅决定于蒂勒数,随蒂勒数的增加而降低,与此阶段持续的时间无关,蒂勒数是描述脱硫反应产物层形成过程中传递反应特性的重要参数,它同时反映了化学反应速度、扩散速度的影响。本文还考察了粒径、孔隙分布方式以及温度对反应过程的影响,证实了随着温度和孔隙率的升高反应转化率相应提高,反应平均孔径在100~300nm之间的孔隙更利于进行脱硫反应,热重分析(TGA)实验结果进一步证实了理论分析的正确性。 相似文献
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Boilingofliquidsinmicrochannelsand/ormicrostructures,asoneoftheveryimportanttopicsinthisarea,hasuniquesignificanceinthedevelopmentofnewtechnologiesanddevicesforcontrolofenergytransferandotheradvancedapplicationsrequiringverycompactandextremelylargehea… 相似文献
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Based on assuming that there is the precursor film in the front of the apparent contact line (ACL), a model was proposed to understand the dynamic wetting process and associated dynamic contact angle. The present model indicated that a new dimensionless characteristic parameter, 2, attects the dynamic wetting process and associated dynamic contact angle as well. However, the previous model suggested that the dynamic contact angle is dependent'on the capillary number and static contact angle only. An experimental investigation was conducted to measure the dynamic wetting behavior of silicon oil moving over glass, aluminum and stainless steel surfaces. It concluded that when the value of 2 was selected as 0.07, 0.16 and 0.35 for glass, aluminum and stainless steel, respectively, the experimental results were in good accordance with the prediction of the model. Furthermore, the comparison of the model with Strom's experimental data showed that 2 is independent on the species of liquids. Apparently, 2 should be interpreted as the effect of the solid surface properties on the dynamic wetting process.Meanwhile, it is found in the present experiment that the Hoffman-Voinov-Tanner law, which is valid at very low capillary number (Ca 〈〈 1 or 80〈 10°) recommend by Cazabat, still holds for higher contact angles, even up to 70°-80°. This is explained by (he present model very well. 相似文献