BUBBLE GROWTH AT NUCLEATION CAVITY IN MICROCHANNELS

机译：微通道成核腔中的气泡生长

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Bubble dynamics i.e. bubble nucleation, growth and departure plays an important role in heat transfer and pressure drop characteristics during two phase flow of microchannels. A simplified mathematical model has been developed to predict the bubble growth rate in microchannels at nucleation cavity after its inception. It is assumed that heat supplied at nucleation site is divided between liquid phase and vapor phase as per instantaneous void fraction value. The energy consumed by vapor phase is utilized in overcoming evaporation, surface tension, inertia, shear and gravity effects. Proposed model shows good agreement (～14 % error) with available experimental work. In addition, the physical phenomena of the bubble waiting time for flow boiling is also addressed utilizing proposed model. The waiting time predicted by the model is close to that obtained from experimental data.

机译：气泡动力学，即气泡成核，生长和离开在微通道的两相流期间在传热和压降特性中起重要作用。已经开发出简化的数学模型来预测成核腔中微通道在气泡形成后的气泡生长速率。假设在成核部位提供的热量按照瞬时空隙率分在液相和气相之间分配。气相消耗的能量用于克服蒸发，表面张力，惯性，剪切和重力效应。提出的模型与可用的实验工作显示出良好的一致性（约14％误差）。此外，利用提出的模型还解决了气泡沸腾流动时间的物理现象。该模型预测的等待时间接近于从实验数据获得的等待时间。

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《4th international conference on microanoscale heat and mass transfer 2013 : Microanofluidics and Lab-on-a-chip ...》|2013年|V001T04A004.1-V001T04A004.6|共6页
会议地点 Hong Kong(HK)
作者
Sambhaji T. Kadam; Ritunesh Kumar; Kuldeep Baghel;
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Dept. of Mechanical Engineering Indian Institute of Technology Indore (M.P)-453446, India;

Dept. of Mechanical Engineering Indian Institute of Technology Indore (M.P)-453446, India;

Dept. of Mechanical Engineering Indian Institute of Technology Indore (M.P)-453446, India;

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3. HETEROGENEOUS NUCLEATION AND GROWTH OF CRYSTALLINE MICRO-BUBBLES AROUND GAS CAVITIES FORMED IN SOLUTION [J] . D. Aquilano, E. Costa, A. Genovese, Progress in crystal growth and characterization of materials . 2003,第1a2期

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BUBBLE GROWTH AT NUCLEATION CAVITY IN MICROCHANNELS

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