Add to ORKGWe study the heat transfer-driven liquid-to-vapor phase change in single-component systems in porous media by using pore network models and flow visualization experiments. Experiments using glass micromodels were conducted. The flow visualization allowed us to define the rules for the numerical pore network model. A numerical pore network model is developed for vapor-liquid displacement where fluid flow, heat transfer and capillarity are included at the pore level. We examine the growth process at two different boundary conditions
This report the use of dual pore networks (pores and solid sites) for modeling the effect of the mic...
The alteration of the vapor and liquid equilibrium (VLE) of volatile organic mixtures by using porou...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
We study the heat transfer-driven liquid-to-vapor phase change in single-component systems in porous...
The drying of liquid-saturated porous media is typically approaching using macroscopic continuum mod...
International audienceWe present a modelization of the heat and mass transfers within a porous mediu...
We present a study of liquid-vapor phase change phenomena in capillary-porous materials, based on po...
Abstract. In this paper we present numerical results obtained with a pore-network model for the dryi...
Multiphase, multi-component numerical modeling is used to examine the heat transfer and flow phenome...
Thin porous layers, that have large aspect ratios, are seen in many applications such as hydrogen fu...
Porous media are used in several thermal management systems, such as loop-heat-pipes, to control the...
This book introduces the reader into the field of the physics of processes occurring in porous media...
AbstractPore network models have been applied widely for simulating a variety of different physical ...
This book introduces the reader into the field of the physics of processes occurring in porous media...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
This report the use of dual pore networks (pores and solid sites) for modeling the effect of the mic...
The alteration of the vapor and liquid equilibrium (VLE) of volatile organic mixtures by using porou...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
We study the heat transfer-driven liquid-to-vapor phase change in single-component systems in porous...
The drying of liquid-saturated porous media is typically approaching using macroscopic continuum mod...
International audienceWe present a modelization of the heat and mass transfers within a porous mediu...
We present a study of liquid-vapor phase change phenomena in capillary-porous materials, based on po...
Abstract. In this paper we present numerical results obtained with a pore-network model for the dryi...
Multiphase, multi-component numerical modeling is used to examine the heat transfer and flow phenome...
Thin porous layers, that have large aspect ratios, are seen in many applications such as hydrogen fu...
Porous media are used in several thermal management systems, such as loop-heat-pipes, to control the...
This book introduces the reader into the field of the physics of processes occurring in porous media...
AbstractPore network models have been applied widely for simulating a variety of different physical ...
This book introduces the reader into the field of the physics of processes occurring in porous media...
We present direct simulations of several experiments with different geometries using Volume of Fluid...
This report the use of dual pore networks (pores and solid sites) for modeling the effect of the mic...
The alteration of the vapor and liquid equilibrium (VLE) of volatile organic mixtures by using porou...
We present direct simulations of several experiments with different geometries using Volume of Fluid...