Under steady flow conditions, the topological complexity inherent to all random three-dimensional (3D) porous media imparts complicated flow and transport dynamics. It has been established that this complexity generates persistent chaotic advection via a 3D fluid mechanical analogue of the baker's map which rapidly accelerates scalar mixing in the presence of molecular diffusion. Hence, pore-scale fluid mixing is governed by the interplay between chaotic advection, molecular diffusion and the broad (power-law) distribution of fluid particle travel times which arise from the non-slip condition at pore walls. To understand and quantify mixing in 3D porous media, we consider these processes in a model 3D open porous network and develop a novel...
We study the mixing dynamics of solute blobs in the flow through saturated heterogeneous porous medi...
We study the interplay of pore-scale mixing and network-scale advection through heterogeneous porous...
Historically, the dominant conceptual paradigm of porous media flow, solute mixing and transport was...
International audienceUnder steady flow conditions, the topological complexity inherent to all rando...
The topological complexity inherent to all porous media can impart complicated transport dynamics un...
The macroscopic spreading and mixing of solute plumes in saturated porous media is ultimately contro...
International audienceMixing of dissolved chemical species in porous media plays a central role in m...
We show that chaotic advection is inherent to flow through all types of porous media, from granular ...
International audienceRecent studies have shown that chaotic advection is spontaneously produced by ...
International audienceSteady laminar flows through porous media spontaneously generate Lagrangian ch...
International audienceRecent works have shown that laminar flows through porous media generate Lagra...
International audienceFluid stretching and deformation as quantified by the fluid deformation gradie...
Mixing fronts at the interface of opposing flows are compressed at a constant rate. The resulting ex...
The topological complexity inherent to all porous media imparts persistent chaotic advection under s...
While mixing and particle transport in 2D incompressible flows are well-understood, much less is kno...
We study the mixing dynamics of solute blobs in the flow through saturated heterogeneous porous medi...
We study the interplay of pore-scale mixing and network-scale advection through heterogeneous porous...
Historically, the dominant conceptual paradigm of porous media flow, solute mixing and transport was...
International audienceUnder steady flow conditions, the topological complexity inherent to all rando...
The topological complexity inherent to all porous media can impart complicated transport dynamics un...
The macroscopic spreading and mixing of solute plumes in saturated porous media is ultimately contro...
International audienceMixing of dissolved chemical species in porous media plays a central role in m...
We show that chaotic advection is inherent to flow through all types of porous media, from granular ...
International audienceRecent studies have shown that chaotic advection is spontaneously produced by ...
International audienceSteady laminar flows through porous media spontaneously generate Lagrangian ch...
International audienceRecent works have shown that laminar flows through porous media generate Lagra...
International audienceFluid stretching and deformation as quantified by the fluid deformation gradie...
Mixing fronts at the interface of opposing flows are compressed at a constant rate. The resulting ex...
The topological complexity inherent to all porous media imparts persistent chaotic advection under s...
While mixing and particle transport in 2D incompressible flows are well-understood, much less is kno...
We study the mixing dynamics of solute blobs in the flow through saturated heterogeneous porous medi...
We study the interplay of pore-scale mixing and network-scale advection through heterogeneous porous...
Historically, the dominant conceptual paradigm of porous media flow, solute mixing and transport was...