The heat transfer data of nucleate pool boiling on a smooth flat surface were measured in HC170/HFC23 system.
实验测量了新型共沸混合工质HC170/HFC23的池核沸腾传热特性。
A new method has been presented to predict the nucleation site density in nucleate pool boiling based on the investigation of the microstructure of boiling surface.
本文提出了一种新的基于沸腾壁面微结构分析的预测核态池沸腾中汽化核心密度的方法。
A steady numerical simulation of the effect of nano-particles on nucleation sites in nucleate pool boiling heat transfer was conducted based on the experimental boiling curves.
根据实验所得沸腾曲线,对纳米颗粒悬浮液进行稳态数值模拟,计算了不同过热度下活化核心的密度。
The experimental results show that in the pool nucleate boiling process the "effect of interfacial vaporization heat sink" obviously increases with the heat transfer flux.
实验结果表明,沸腾时,“界面汽化热阱”效应随热流率的提高而显著增大。
The experimental results show that in the pool nucleate boiling process the "effect of interfacial vaporization heat sink" obviously increases with the heat transfer flux.
实验结果表明,沸腾时,“界面汽化热阱”效应随热流率的提高而显著增大。
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