Quasi-static simulation of droplet morphologies using a smoothed particle hydrodynamics multiphase model

摘要

Numerical simulation of the morphology of a droplet deposited on a solid surface requires an efficient description of the three-phase contact line.In this study,a simple method of implementing the contact angle is proposed,combined with a robust smoothed particle hydrodynamics multiphase algorithm (Zhang 2015).The first step of the method is the creation of the virtual liquid-gas interface across the solid surface by means of dummy particles,thus the calculated surface tension near the triple point serves to automatically modulate the dynamic contact line towards the equilibrium state.We simulate the evolution process of initially square liquid lumps on flat and curved surfaces.The predictions of droplet profiles are in good agreement with the analytical solutions provided that the macroscopic contact angle is accurately implemented.Compared to the normal correction method,the present method is straightforward without the need to manually alter the normal vectors.This study presents a robust algorithm capable of capturing the physics of the static wetting.It may hold great potentials in bio-inspired superhydrophobic surfaces,oil displacement,microfluidics,ore floatation,etc.