International audienceWe study the upscaling of advective pore-scale dispersion in terms of the Eulerian velocity distribution and advective tortuosity, both flow attributes, and of the average pore length, a medium attribute. The stochastic particle motion is modeled as a time-domain random walk, in which particles move along streamlines in equidistant spatial steps with random velocities and thus random transition times. Particle velocities describe stationary spatial Markov processes, which evolve along streamlines on the mean pore length. The streamwise motion is projected onto the mean flow direction using tortuosity. This upscaled stochastic particle model predicts accurately the (non-Fickian) transport dynamics obtained from direct n...
Mathematical models based on probability density functions (PDF) have been extensively used in hydro...
We study the nature of non-Fickian particle transport in 3-D porous media by simulating fluid flow i...
We present a new algorithm for modelling single phase transport of a tracer in porous media which de...
We study the upscaling of advective pore-scale dispersion in terms of the Eulerian velocity distribu...
Upscaling dispersion, mixing, and reaction processes from the pore to the Darcy scale is directly re...
International audienceUpscaling dispersion, mixing, and reaction processes from the pore to the Darc...
We study the upscaling and prediction of large-scale solute dispersion in heterogeneous porous media...
The mechanisms responsible for anomalous (non-Fickian) hydrodynamictransport can be traced back to t...
We study the evolution of velocity in time, which fundamentally controls the way dissolved substance...
We study the upscaling and prediction of ensemble dispersion in two-dimensional heterogeneous porous...
The understanding of the dynamics of Lagrangian velocities is key for the understanding and upscalin...
We provide a physically based explanation for the complex macroscopic behavior of longitudinal and ...
International audienceWe investigate effective transport upscaling from pore scale simulations of fl...
International audienceMixing and reactive transport are primarily controlled by the interplay betwee...
© 2020, The Author(s). Mathematical models based on probability density functions (PDF) have been ex...
Mathematical models based on probability density functions (PDF) have been extensively used in hydro...
We study the nature of non-Fickian particle transport in 3-D porous media by simulating fluid flow i...
We present a new algorithm for modelling single phase transport of a tracer in porous media which de...
We study the upscaling of advective pore-scale dispersion in terms of the Eulerian velocity distribu...
Upscaling dispersion, mixing, and reaction processes from the pore to the Darcy scale is directly re...
International audienceUpscaling dispersion, mixing, and reaction processes from the pore to the Darc...
We study the upscaling and prediction of large-scale solute dispersion in heterogeneous porous media...
The mechanisms responsible for anomalous (non-Fickian) hydrodynamictransport can be traced back to t...
We study the evolution of velocity in time, which fundamentally controls the way dissolved substance...
We study the upscaling and prediction of ensemble dispersion in two-dimensional heterogeneous porous...
The understanding of the dynamics of Lagrangian velocities is key for the understanding and upscalin...
We provide a physically based explanation for the complex macroscopic behavior of longitudinal and ...
International audienceWe investigate effective transport upscaling from pore scale simulations of fl...
International audienceMixing and reactive transport are primarily controlled by the interplay betwee...
© 2020, The Author(s). Mathematical models based on probability density functions (PDF) have been ex...
Mathematical models based on probability density functions (PDF) have been extensively used in hydro...
We study the nature of non-Fickian particle transport in 3-D porous media by simulating fluid flow i...
We present a new algorithm for modelling single phase transport of a tracer in porous media which de...