微通道对流沸腾中的两相流振荡

Man Lee, Yi-Kuen Lee, Y. Zohar
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引用次数: 1

摘要

为了研究微通道内强制对流沸腾过程中的局部温度和压力波动,研制了一种集成了加热器、压力和温度微传感器的热微系统。观测到的两相流可分为两种流动模式:液/气界面振荡流动和液体爆裂流动;两者都会导致温度和压力场的不稳定。将实测信号的FFT功率谱与流动可视化相关联,分析两相流模式。各流型的主导波动频率随输入功率的增大而增大;在相似条件下,液/气界面周期性振荡的频率高于液爆发的主导频率。进行了量纲分析,以得出两种流型的无量纲波动频率,斯特劳哈尔数的经验相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Two-phase flow oscillations in microchannel convective boiling
A thermal microsystem with integrated heaters, pressure and temperature microsensors, has been fabricated to study local temperature and pressure fluctuations occurring in forced convective boiling in microchannels. The observed two-phase flows can be classified into two patterns: oscillating liquid/vapour interface and liquid burst flow; both leading to unsteady temperature and pressure fields. FFT power spectra of the measured signals are correlated with flow visualizations to analyse the two-phase flow modes. The dominant fluctuation frequency of each flow mode increases with input power; and, under similar conditions, the frequency of the periodically oscillating liquid/vapour interface is higher than the dominant frequency of the liquid bursts. Dimensional analysis is performed to derive empirical correlations for the dimensionless fluctuation frequency, Strouhal number, for both flow patterns.
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