International audienceWe study the intermittency of fluid velocities in porous media and its relation to anomalous dispersion. Lagrangian velocities measured at equidistant points along streamlines are shown to form a spatial Markov process. As a consequence of this remarkable property, the dispersion of fluid particles can be described by a continuous time random walk with correlated temporal increments. This new dynamical picture of intermittency provides a direct link between the microscale flow, its intermittent properties, and non-Fickian dispersion
International audienceTransport of solutes during flow through porous media plays a central role in ...
International audienceUsing index matching and particle tracking, we measure the three-dimensional v...
International audienceHydrodynamic dispersion process in relation with the geometrical properties of...
International audienceWe study the intermittency of fluid velocities in porous media and its relatio...
International audienceFrom numerical simulations of pore-scale flow in porous media, we demonstrate ...
International audienceThe spatial distribution of a solute undergoing advection and diffusion is imp...
International audienceThe spatial distribution of a scalar undergoing advection and diffusion is imp...
We model a fluid-filled disordered porous medium by a lattice-Boltzmann system with randomly broken ...
International audienceWe develop a continuous time random walk (CTRW) approach for the evolution of ...
We study the evolution of velocity in time, which fundamentally controls the way dissolved substance...
We provide a physically based explanation for the complex macroscopic behavior of longitudinal and ...
Intermittency of Lagrangian velocity and acceleration is a key to understanding transport in complex...
International audienceSpace-Lagrangian random walk models conceptualize advective transport in terms...
We study the origins of anomalous dispersion in heterogeneous porous media in terms of the medium a...
International audienceMedium and flow heterogeneities lead to global transport patternsthat cannot b...
International audienceTransport of solutes during flow through porous media plays a central role in ...
International audienceUsing index matching and particle tracking, we measure the three-dimensional v...
International audienceHydrodynamic dispersion process in relation with the geometrical properties of...
International audienceWe study the intermittency of fluid velocities in porous media and its relatio...
International audienceFrom numerical simulations of pore-scale flow in porous media, we demonstrate ...
International audienceThe spatial distribution of a solute undergoing advection and diffusion is imp...
International audienceThe spatial distribution of a scalar undergoing advection and diffusion is imp...
We model a fluid-filled disordered porous medium by a lattice-Boltzmann system with randomly broken ...
International audienceWe develop a continuous time random walk (CTRW) approach for the evolution of ...
We study the evolution of velocity in time, which fundamentally controls the way dissolved substance...
We provide a physically based explanation for the complex macroscopic behavior of longitudinal and ...
Intermittency of Lagrangian velocity and acceleration is a key to understanding transport in complex...
International audienceSpace-Lagrangian random walk models conceptualize advective transport in terms...
We study the origins of anomalous dispersion in heterogeneous porous media in terms of the medium a...
International audienceMedium and flow heterogeneities lead to global transport patternsthat cannot b...
International audienceTransport of solutes during flow through porous media plays a central role in ...
International audienceUsing index matching and particle tracking, we measure the three-dimensional v...
International audienceHydrodynamic dispersion process in relation with the geometrical properties of...