Film Condensation in Horizontal Circular-Section Microchannels

机译：水平圆截面微通道中的薄膜冷凝

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The paper presents a progress report on a theoretical study of film condensation in microchannels. Condensation of R134a in horizontal circular-section microchannels is investigated theoretically. The model takes account of surface tension, vapor shear stress and gravity. The case considered here is where the channel wall temperature is uniform and the vapor is saturated at inlet. The tube diameter varies in the range of 0.5 - 5 mm and the mass velocity varies in the range of 100 - 1300 kg/m~2 s. The local condensate film profile around the cross section is calculated together with the mean heat-transfer coefficient at different distances along the channel. Results show that the enhancing effect of surface tension in circular-section microchannels is small compared to that in non-circular section microchannels.

机译：本文介绍了微通道中膜凝结的理论研究进展报告。理论上研究了R134a在水平圆形截面微通道中的凝结。该模型考虑了表面张力，蒸气剪切应力和重力。此处考虑的情况是通道壁温度均匀且蒸汽在入口处饱和。管的直径在0.5-5 mm的范围内变化，质量速度在100-1300 kg / m〜2 s的范围内变化。计算沿横截面的局部冷凝膜分布以及沿通道不同距离处的平均传热系数。结果表明，与非圆形截面微通道相比，圆形截面微通道中表面张力的增强作用很小。

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《International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion》|2005年|921-927|共7页
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Huasheng WANG; John W. ROSE;
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中图分类传热学;
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1. Film condensation in horizontal circular section microchannels [J] . Hua Sheng Wang, John W. Rose International Journal of Engineering Systems Modelling and Simulation . 2009,第2a3期

机译：水平圆形截面微通道中的薄膜凝结
2. Film condensation in horizontal microchannels: Effect of channel shape [J] . Hua Sheng Wang, John W. Rose International Journal of Thermal Sciences . 2006,第12期

机译：水平微通道中的膜凝结：通道形状的影响
3. A Theory of Film Condensation in Horizontal Noncircular Section Microchannels [J] . Hua Sheng Wang, John W. Rose Journal of Heat Transfer . 2005,第10期

机译：水平非圆形截面微通道中的膜凝结理论
4. Film Condensation in Horizontal Circular-Section Microchannels [C] . Huasheng WANG, John W. ROSE, National Natural Science Foundation of China, International Symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion . 2005

机译：水平圆形截面微通道的膜凝结
5. Experimental analysis of high heat-flux microchannel condensation [D] . Kim, Joseph. 2011

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6. Nano-oxide thin films deposited via atomic layer deposition on microchannel plates [O] . Baojun Yan, Shulin Liu, Yuekun Heng 2015

机译：通过原子层沉积在微通道板上沉积的纳米氧化物薄膜
7. Condensation Heat Transfer in Horizontal Non-Circular Microchannels [O] . Hicham El Mghari, Mohamed Asbik, Hasna Louahlia-Gualous 2013

机译：水平非圆形微通道中的冷凝传热
8. The Effect of Steam- and Condensation Flow on Heat Transfer and Pressure Loss in Streaming Saturated Vapor Flow on Horizontal Pipe Bundles During Film Condensation . ueber den Einfluss der Dampf und Kondensatstroemung Auf Waermeuebergang und Druckverluste bei der Filmkondensation Stroemenden Sattdampfes an Waagerechten Rohrbuendeln [R] . Turek, K. 1971

机译：水汽凝结过程中蒸汽和冷凝流对水平管束流动饱和蒸汽流传热和压力损失的影响。 ueber den Einfluss der Dampf und Kondensatstroemung auf Waermeuebergang und Druckverluste bei der Filmkondensation stroemenden sattdampfes an Waagerechten Rohrbuendeln

Film Condensation in Horizontal Circular-Section Microchannels

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