Coalescence of Dual Bubbles on Micro Heaters

Heat Transfer: Volume 4 Pub Date : 2000-11-05 DOI:10.1115/imece2000-1505

Tailian Chen, J. Chung

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Abstract

This experiment is based on a heating surface consisting of micro heaters where the temperature of each heater can be individually controlled by an electronic feedback loop similar to those used in hotwire anemometry. The power consumed by the heaters throughout the cycle of individual bubble growth, coalescence and departure was measured at high frequencies, thus the heat flux and its variation were obtained. At the same time, visualization of bubbles’ behaviour by a fast CCD camera has been performed to gather more information. By combining the heat flux data closely with the visualization result, we have found that the single bubble’ heat flux variation correlates with the separate stages of its life cycle: nucleation, growth, detachment and departure. By careful timing and control of two individual heaters, we were able to grow two individual bubbles side-by-side. The coalescence of these two bubbles would take place when they grow to a certain size that allows them to touch each other. We have recorded two major heat flux spikes for a typical cycle. The first one corresponds to the nucleation of bubbles, the second one is for the coalescence of the two bubbles. We found that the heat flux variation is closely related to the bubble dynamics and bubble-bubble interaction.

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微型加热器上双气泡的聚并

该实验基于由微型加热器组成的加热表面，其中每个加热器的温度可以通过类似于热线风速测量中使用的电子反馈回路单独控制。在高频下测量了各个气泡生长、聚并和分离的整个循环过程中加热器所消耗的功率，从而得到了热流密度及其变化。同时，通过快速CCD相机对气泡的行为进行可视化，以收集更多的信息。通过将热流密度数据与可视化结果紧密结合，我们发现单个气泡的热流密度变化与其生命周期的成核、生长、分离和分离阶段相关。通过仔细地定时和控制两个单独的加热器，我们能够并排地培养两个单独的气泡。当这两个气泡长到一定的大小，使它们能够相互接触时，它们就会结合在一起。在一个典型的周期中，我们记录了两次主要的热通量峰值。第一个对应于气泡的成核，第二个对应于两个气泡的合并。我们发现热流密度的变化与气泡动力学和气泡-气泡相互作用密切相关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Heat Transfer: Volume 4

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