THE CRITICAL HEAT FLUX IN NUCLEATE BOILING HEAT TRANSFER. PART: I THE CHEMICAL ACTUATOR MECHANISM

机译：核沸腾传热中的临界热通量。部分：I化学执行机构

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Nucleate boiling heat transfer is first introduced and the literature is reviewed. It was concluded that the passive layer and the grain boundaries are responsible for the transfer to the nucleate boiling regime. Based on the recent work of Biener and his collaborators (Nature Material 2008) and the Gibbs rule of thermodynamics, a possible mechanism was outlined. The mechanism assumes that each grain in the passive layer act as a chemical actuator which is driven by microstructure phase change. The new mechanism agrees well with the experimental results, in good agreement with previous models and can explain why and how CHF occurs.

机译：首先介绍了核沸腾传热，并综述了文献。结论是，钝化层和晶界负责向核沸腾区的转移。根据Biener及其合作者的最新工作（Nature Material 2008）和热力学的吉布斯规则，概述了一种可能的机理。该机制假定钝化层中的每个晶粒都充当由微观结构相变驱动的化学致动器。新机制与实验结果非常吻合，与先前的模型非常吻合，并且可以解释为什么以及如何发生CHF。

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《International conference on nanochannels, microchannels and minichannels;ICNMM2009》|2009年|P.549-565|共17页
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M.R. Reda;
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THE CRITICAL HEAT FLUX IN NUCLEATE BOILING HEAT TRANSFER. PART: I THE CHEMICAL ACTUATOR MECHANISM

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