Special Session 10: Analysis of diffuse and sharp interface models

Two-phase flows through porous media: A Cahn-Hilliard-Brinkman model with dynamic boundary conditions
Patrik Knopf
University of Regensburg
Germany
Co-Author(s):    Pierluigi Colli, Andrea Signori, Giulio Schimperna
Abstract:
We consider a new diffuse-interface model that describes creeping two-phase flows (i.e., flows exhibiting a low Reynolds number), especially flows that permeate a porous medium. The system of equations consists of a Brinkman equation for the volume averaged velocity field as well as a convective Cahn-Hilliard equation with dynamic boundary conditions for the phase-field, which describes the location of the two fluids within the domain. The dynamic boundary conditions are incorporated to model the interaction of the fluids with the wall of the container more precisely. In particular, they allow for a dynamic evolution of the contact angle between the interface separating the fluids and the boundary, and also for a convection-induced motion of the corresponding contact line. In this talk, modeling aspects as well as analytical results will be discussed.