核沸腾
沸腾
气泡
材料科学
热流密度
聚结(物理)
传热
临界热流密度
沟槽(工程)
机械
传热系数
热力学
成核
散热片
强化传热
强化传热
液体气泡
沸腾传热
曲面(拓扑)
计算机模拟
复合材料
作者
Chen Xu,Yizhou Wang,Xin‐Rong Zhang,Wenyi Li,Jieru Li
出处
期刊:Energies
[Multidisciplinary Digital Publishing Institute]
日期:2025-09-11
卷期号:18 (18): 4830-4830
摘要
Improving the pool boiling heat transfer by changing the properties of the heating surface has been experimentally studied by many researchers. In this paper, two novel microstructured surfaces with open channels were simulated and investigated. The two microstructured surfaces had different cavity positions and different groove widths of open channels. At the same time, a pool boiling experiment on the plain-heated surface was carried out to verify the reliability and accuracy of the CFD model. The results showed the relationship between the heat flux and wall superheat. Moreover, the bubble dynamic behaviors of different surfaces were obtained. It was found that both microstructured surfaces could enhance the pool boiling heat transfer coefficient (HTC) and critical heat flux (CHF). Enlarging the length of the groove gap can not only increase the heat transfer area, but also increase the bubble nucleation rate. However, constantly increasing the groove width will cause the horizontal coalescence of bubbles on the heating surface at low heat flux. When the negative effect of bubble coalescence is higher than the enhancement effect, the boiling heat transfer capacity of the heating surface will decrease unless the heat flux is high enough to delay bubble coalescence.
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