On a Diffuse Interface Model for Two-Phase Flows of Viscous, Incompressible Fluids with Matched Densities

We investigate the applicability of an incompressible diffuse interface model for two-phase incompressible fluid flows with large viscosity and density contrasts. Diffuse-interface models have been used previously primarily for densitymatched fluids, and it remains unclear to what extent such models

The volume of fluid (VOF) method, which uses an interface tracking algorithm for the simulation of the two-phase flow, is coupled with the "two-fluid" model, which is based on time and space averaged equations and cannot track the interface explicitly. The idea of the present work is to use the VOF

We present an artificial compressibility based numerical method for a phase field model for simulating two-phase incompressible viscous flows. The phase model was proposed by Liu and Shen [Physica D. 179 (2003) 211-228], in which the interface between two fluids is represented by a thin transition r

This paper reports a new numerical scheme of the lattice Boltzmann method for calculating liquid droplet behaviour on particle wetting surfaces typically for the system of liquid-gas of a large density ratio. The method combines the existing models of Inamuro et al. [T.