Add to ORKGWe present the visual analysis of our novel parameter study of porous media experiments, focusing on gaining a better understanding of drainage processes on the micro-scale. We analyze the temporal evolution of extracted characteristic values, and discuss how to directly compare experiments that exhibit processes at different temporal scales due to varying boundary and physical conditions. To enable spatio-temporal analysis, we introduce a new abstract visual representation showing which paths through the porous media were occupied to what extent, e.g., allowing for classification into viscous and capillary regimes. This joint work of porous media experts and visualization researchers yields new insights regarding immiscible two-phase flow ...
International audienceImmiscible two-phase flow through porous media is composed of a series of pore...
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...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present simulations and experiments of drainage processes in a micro-model. A direct numerical si...
Standard models of two-phase flow in porous media have been shown to exhibit several shortcomings th...
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...
Micro-fluidic devices have been designed and used to investigate immiscible fluid-fluid displacement...
Liquid invasion into a porous medium is a phenomenon of great importance in both nature and technolo...
International audienceThe simulation of unstable invasion patterns in porous media flow is very chal...
International audienceImmiscible two-phase flow through porous media is composed of a series of pore...
International audienceImmiscible two-phase flow through porous media is composed of a series of pore...
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...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present the visual analysis of our novel parameter study of porous media experiments, focusing on...
We present simulations and experiments of drainage processes in a micro-model. A direct numerical si...
Standard models of two-phase flow in porous media have been shown to exhibit several shortcomings th...
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...
Micro-fluidic devices have been designed and used to investigate immiscible fluid-fluid displacement...
Liquid invasion into a porous medium is a phenomenon of great importance in both nature and technolo...
International audienceThe simulation of unstable invasion patterns in porous media flow is very chal...
International audienceImmiscible two-phase flow through porous media is composed of a series of pore...
International audienceImmiscible two-phase flow through porous media is composed of a series of pore...
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...