We introduce a percolation model with long-range correlations, and investigate its scaling properties. Using this model, we provide a theoretical explanation for experimental data for hydrodynamic dispersion in heterogeneous rock formations and aquifers that had remained unexplained for a long time
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
Percolation in porous media is a complex process that depends on the flow rate, material, and fluids...
We introduce a percolation model with long-range correlations, and investigate its scaling propertie...
A recently introduced theory of solute transport in porous media is tested by comparison with experi...
Using large scale computer simulations and pore network models of porous rock, we investigate the ef...
We provide a physically based explanation for the complex macroscopic behavior of longitudinal and ...
The invasion percolation model is used to investigate the effect of correlated heterogeneity on capi...
International audienceFrom numerical simulations of pore-scale flow in porous media, we demonstrate ...
We present the results of extensive Monte Carlo simulations of the invasion percolation model with t...
The aim of the present study is to determine the longitudinal dispersion coefficient D-L for transpo...
5 p.International audienceWe study the intermittency of fluid velocities in porous media and its rel...
In this study, we develop a saturation-dependent treatment of dispersion in porous media using conce...
Starting from the analysis of correlated percolation lattices, we develop a new predictive model for...
International audienceWe investigate effective transport upscaling from pore scale simulations of fl...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
Percolation in porous media is a complex process that depends on the flow rate, material, and fluids...
We introduce a percolation model with long-range correlations, and investigate its scaling propertie...
A recently introduced theory of solute transport in porous media is tested by comparison with experi...
Using large scale computer simulations and pore network models of porous rock, we investigate the ef...
We provide a physically based explanation for the complex macroscopic behavior of longitudinal and ...
The invasion percolation model is used to investigate the effect of correlated heterogeneity on capi...
International audienceFrom numerical simulations of pore-scale flow in porous media, we demonstrate ...
We present the results of extensive Monte Carlo simulations of the invasion percolation model with t...
The aim of the present study is to determine the longitudinal dispersion coefficient D-L for transpo...
5 p.International audienceWe study the intermittency of fluid velocities in porous media and its rel...
In this study, we develop a saturation-dependent treatment of dispersion in porous media using conce...
Starting from the analysis of correlated percolation lattices, we develop a new predictive model for...
International audienceWe investigate effective transport upscaling from pore scale simulations of fl...
A fundamental component of the hydrologic cycle is the movement of fluids in the pore space of geolo...
We study how the dynamics of a drying front propagating through a porous medium are affected by smal...
Percolation in porous media is a complex process that depends on the flow rate, material, and fluids...
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