纵向偏心的空心液滴撞击小圆柱体的数值研究OA
Numerical study of a vertically eccentric hollow droplet impacting on a small cylinder
对气泡纵向偏心的空心液滴撞击超疏水小圆柱的动力学行为进行数值模拟研究.根据液滴在撞击过程中经历的拓扑结构变化,确定了4种典型的撞击模式:直接反弹、破裂回缩、连续破裂和顶部破裂.分析这些模式间的转变与韦伯数和气泡偏心比等无量纲参数的关系,并讨论不同模式下液滴的铺展比、速度、动能等关键物理量随时间的变化规律.进一步的定量分析表明,在所考察的参数范围内,空心液滴在撞击过程中的最大铺展比是气泡纵向位置的非单调函数;对于相对较大的韦伯数,较小的气泡偏心程度更有利于液滴的铺展.此外,液滴破裂的无量纲时间与气泡偏心比近似呈线性关系,与韦伯数大小的关联性较弱.
This paper presents a direct numerical simulation study of the effect of bubble vertical eccentricity on the behavior of a hollow droplet impacting on a super-hydrophobic cylindrical target.Based on the topological changes the droplet undergoes during impact,four typical regimes are identified:direct rebound,breakup-retraction,continuous breakup,and top breakup.The transitions between these regimes are analyzed in relation to the dimensionless parameters including the Weber number and bubble eccentricity ratio.Furthermore,the temporal evolution of key physical quantities,such as the spreading ratio,velocity,and kinetic energy,is discussed for each regime.Quantitative analysis further reveals that,the maximum spreading ratio of the hollow droplet during impact is a non-monotonic function of the bubble's vertical position within the range of parameters considered.For relatively large Weber numbers,a smaller degree of bubble eccentricity facilitates droplet spreading.On the other hand,the dimensionless rupture time demonstrates an approximately linear relationship with the bubble eccentricity ratio,while exhibiting only a weak correlation with the Weber number.
杨林凯;汤龙民;周光照
中国科学院大学工程科学学院,北京 101408中国科学院大学工程科学学院,北京 101408中国科学院大学工程科学学院,北京 101408
能源科技
空心液滴气泡偏心液滴撞击拓扑结构变化
hollow dropletbubble eccentricitydroplet impacttopological change
《中国科学院大学学报》 2026 (2)
145-154,10
国家自然科学基金(12202441)资助
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