Add to ORKGInternational audienceRecent studies have shown that chaotic advection is spontaneously produced by laminar flows through granular media such as bead packs, strongly impacting solute mixing rates. This has strong implications for many reactive and biological processes in the subsurface. Chaotic dynamics could also be key in a wide range of environmental and industrial applications driven by mixing. Beside granular media, there is still no evidence that chaos broadly arises in the large variety of porous architectures that exist. In particular, it is unknown how the pore structure and topology can control chaotic dynamics.In this study, we numerically investigate the mixing behavior of solute for a wide range of natural and engineered porous...
Mixing of granular materials provides fascinating examples of pattern formation and self-organizatio...
In an attempt to investigate gravity effects on solute dispersion at the scale of a pore network, si...
Although steady, isotropic Darcy flows are inherently laminar and nonmixing in the absence of diffus...
International audienceRecent studies have shown that chaotic advection is spontaneously produced by ...
Under steady flow conditions, the topological complexity inherent to all random three-dimensional (3...
International audienceRecent works have shown that laminar flows through porous media generate Lagra...
International audienceSteady laminar flows through porous media spontaneously generate Lagrangian ch...
International audienceMixing of dissolved chemical species in porous media plays a central role in m...
The topological complexity inherent to all porous media can impart complicated transport dynamics un...
We show that chaotic advection is inherent to flow through all types of porous media, from granular ...
The macroscopic spreading and mixing of solute plumes in saturated porous media is ultimately contro...
International audienceWe study the Lagrangian kinematics of steady three-dimensional Stokes flow ove...
We study the Lagrangian kinematics of steady three-dimensional Stokes flow over simple cubic (SC) an...
International audienceWe study the Lagrangian dynamics of steady 3D Stokes flow over simple cubic (S...
In the accompanying paper, Part I, hydrothermal mineralising systems are considered as open chemical...
Mixing of granular materials provides fascinating examples of pattern formation and self-organizatio...
In an attempt to investigate gravity effects on solute dispersion at the scale of a pore network, si...
Although steady, isotropic Darcy flows are inherently laminar and nonmixing in the absence of diffus...
International audienceRecent studies have shown that chaotic advection is spontaneously produced by ...
Under steady flow conditions, the topological complexity inherent to all random three-dimensional (3...
International audienceRecent works have shown that laminar flows through porous media generate Lagra...
International audienceSteady laminar flows through porous media spontaneously generate Lagrangian ch...
International audienceMixing of dissolved chemical species in porous media plays a central role in m...
The topological complexity inherent to all porous media can impart complicated transport dynamics un...
We show that chaotic advection is inherent to flow through all types of porous media, from granular ...
The macroscopic spreading and mixing of solute plumes in saturated porous media is ultimately contro...
International audienceWe study the Lagrangian kinematics of steady three-dimensional Stokes flow ove...
We study the Lagrangian kinematics of steady three-dimensional Stokes flow over simple cubic (SC) an...
International audienceWe study the Lagrangian dynamics of steady 3D Stokes flow over simple cubic (S...
In the accompanying paper, Part I, hydrothermal mineralising systems are considered as open chemical...
Mixing of granular materials provides fascinating examples of pattern formation and self-organizatio...
In an attempt to investigate gravity effects on solute dispersion at the scale of a pore network, si...
Although steady, isotropic Darcy flows are inherently laminar and nonmixing in the absence of diffus...