Boiling flow of deionized water through 227 μm hydraulic diameter microchannels with 7.5 μm wide interconnected reentrant cavities at 47 kPa exit pressure has been investigated. Average two-phase heat transfer coefficients have been obtained over effective heat fluxes ranging from 28 to 445 W/cm{sup}2 and mass fluxes from 41 to 302 kg/m{sup}2 s. A map is developed that divides the data into two regions where the heat transfer mechanisms are nucleation or convective boiling dominant. The map is compared to similar atmospheric exit pressure data developed in a previous study. A boiling mechanism transition criterion based on the Reynolds number and the Kandlikar k1 number is proposed.
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机译:已经研究了去离子水在47 kPa出口压力下通过7.5μm宽的相互连通的凹腔的227μm液压直径微通道的沸腾流动。在有效热通量范围为28至445 W / cm {sup} 2和质量通量范围为41至302 kg / m {sup} 2 s的情况下,已获得平均两相传热系数。绘制了一个地图,将数据分为两个区域,传热机制是成核或对流沸腾占主导。将该图与先前研究中开发的类似的大气出口压力数据进行了比较。提出了基于雷诺数和Kandlikar k1数的沸腾机理转变判据。
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