We present simulations and experiments of drainage processes in a micro-model. A direct numerical simulation is introduced which is capable of describing wetting phenomena on the pore scale. A numerical smoothed particle hydrodynamics model was developed and used to simulate the two-phase flow of immiscible fluids. The experiments were performed in a micro-model which allows the visualization of interface propagation in detail. We compare the experiments and simulations of a quasistatic drainage process and pure dynamic drainage processes. For both, simulation and experiment, the interfacial area and the pressure at the inflow and outflow are tracked. The capillary pressure during the dynamic drainage process was determined by image analysi...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
Recent computational studies of two-phase flow suggest that the role of fluid-fluid interfaces shoul...
Current theories of two-phase flow in porous media are based on the so-called extended Darcy’s law, ...
We present simulations and experiments of drainage processes in a micro-model. A direct numerical si...
We present simulations and experiments of drainage processes in a micro-model. A direct numerical si...
Abstract Wepresent simulations and experiments of drainage processes in amicro-model.A direct numeri...
The aim of this research project was to put more physics into theories of two-phase flow. The signif...
We perform pore-scale resolved direct numerical simulations of immiscible two-phase flow in porous m...
International audienceThe simulation of unstable invasion patterns in porous media flow is very chal...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
A pore scale model which incorporates all the mechanisms observed in glass micromodel experiments is...
International audienceThe simulation of unstable invasion patterns in porous media flow is challengi...
International audienceThe simulation of unstable invasion patterns in porous media flow is challengi...
International audienceThe simulation of unstable invasion patterns in porous media flow is challengi...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
Recent computational studies of two-phase flow suggest that the role of fluid-fluid interfaces shoul...
Current theories of two-phase flow in porous media are based on the so-called extended Darcy’s law, ...
We present simulations and experiments of drainage processes in a micro-model. A direct numerical si...
We present simulations and experiments of drainage processes in a micro-model. A direct numerical si...
Abstract Wepresent simulations and experiments of drainage processes in amicro-model.A direct numeri...
The aim of this research project was to put more physics into theories of two-phase flow. The signif...
We perform pore-scale resolved direct numerical simulations of immiscible two-phase flow in porous m...
International audienceThe simulation of unstable invasion patterns in porous media flow is very chal...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
A pore scale model which incorporates all the mechanisms observed in glass micromodel experiments is...
International audienceThe simulation of unstable invasion patterns in porous media flow is challengi...
International audienceThe simulation of unstable invasion patterns in porous media flow is challengi...
International audienceThe simulation of unstable invasion patterns in porous media flow is challengi...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
Recent computational studies of two-phase flow suggest that the role of fluid-fluid interfaces shoul...
Current theories of two-phase flow in porous media are based on the so-called extended Darcy’s law, ...