Spontaneous Imbibition in a Square Tube With Corner Films: Theoretical Model and Numerical Simulation

渗吸 格子Boltzmann方法 捆绑 机械 表面张力 缩放比例 润湿 材料科学 毛细管压力 物理 多孔介质 毛细管作用 热力学 几何学 数学 多孔性 复合材料 植物 发芽 生物
作者
Jianlin Zhao,Feifei Qin,R. Fischer,Qinjun Kang,Dominique Derome,Jan Carmeliet
出处
期刊:Water Resources Research [Wiley]
卷期号:57 (2) 被引量:12
标识
DOI:10.1029/2020wr029190
摘要

Spontaneous imbibition in an angular tube with corner films is a fundamental problem in many scientific and engineering processes. In this study, a modified interacting capillary bundle model is developed to describe the liquid imbibition dynamics in a square tube with corner films. The square tube is decomposed into several interacting subcapillaries and the local capillary pressure in each subcapillary is derived based on the specific shape of its meniscus. The conductance of each subcapillary is calculated using single-phase lattice Boltzmann simulation. The modified interacting capillary bundle model and color-gradient lattice Boltzmann method are used to simulate the liquid imbibition dynamics in the square tube with different fluid properties. The predictions by the modified interacting capillary bundle model match well with the lattice Boltzmann simulation results for different conditions, demonstrating the accuracy and robustness of the interacting capillary bundle model to describe the imbibition dynamics with corner films. In addition, the interacting capillary bundle model is helpful to investigate the mechanisms during spontaneous imbibition and the influences of fluid viscosity, surface tension, wetting phase contact angle and gravity on imbibition dynamics. Finally, a universal scaling law of imbibition dynamics for the main meniscus is developed and the scaling law for arc meniscus is also analyzed.

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