Add to ORKGAbstract. We show that the widely used model governing the motion of two incompressible immiscible fluids in a possibly heterogeneous porous medium has a formal gradient flow structure. More precisely, the fluid composition is governed by the gradient flow of some non-smooth energy. Starting from this energy together with a dissipation potential, we recover the celebrated Darcy-Muskat law and the capillary pressure law governing the flow thanks to the principle of least action. Our interpretation does not require the introduction of any algebraic transformation like, e.g., the global pressure or the Kirchhoff transform, and can be transposed to the case of more phases. 1
We demonstrate through numerical simulations and a mean-field calculation that immiscible two-phase ...
A gradient theory of grade two based on an axiomatic conception of a nonlocal continuum theory for m...
The extended Darcy’s law is a commonly used equation for the description of immiscible two-phase flo...
International audienceWe show that the widely used model governing the motion of two incompressible ...
International audienceWe describe the competitive motion of (N + 1) incompressible immiscible phases...
Modeling two phase flows in heterogeneous porous media gives rise to a scalar conservation law with ...
Numerical modeling of two-phase flows in heterogeneous and fractured media is of great interest in p...
In this paper, we consider nonisothermal two-phase flows through heterogeneous porous media with per...
In this paper a general set of equations of motion and duality conditions to be imposed at macroscop...
Traditionally, multiphase flow in porous media is described by the so-called extended Darcy’s Law, w...
International audienceIn this paper a general set of equations of motion and duality conditions to b...
In porous media, there are three known regimes of fluid flows, namely, pre-Darcy, Darcy, and post-Da...
The gradient scheme family, which includes the conforming and mixed finite elements as well as the m...
Models of instabilities in porous media usually assume that the capillary pressure (the difference o...
International audienceFully implicit time-space discretizations applied to the two-phase Darcy flow ...
We demonstrate through numerical simulations and a mean-field calculation that immiscible two-phase ...
A gradient theory of grade two based on an axiomatic conception of a nonlocal continuum theory for m...
The extended Darcy’s law is a commonly used equation for the description of immiscible two-phase flo...
International audienceWe show that the widely used model governing the motion of two incompressible ...
International audienceWe describe the competitive motion of (N + 1) incompressible immiscible phases...
Modeling two phase flows in heterogeneous porous media gives rise to a scalar conservation law with ...
Numerical modeling of two-phase flows in heterogeneous and fractured media is of great interest in p...
In this paper, we consider nonisothermal two-phase flows through heterogeneous porous media with per...
In this paper a general set of equations of motion and duality conditions to be imposed at macroscop...
Traditionally, multiphase flow in porous media is described by the so-called extended Darcy’s Law, w...
International audienceIn this paper a general set of equations of motion and duality conditions to b...
In porous media, there are three known regimes of fluid flows, namely, pre-Darcy, Darcy, and post-Da...
The gradient scheme family, which includes the conforming and mixed finite elements as well as the m...
Models of instabilities in porous media usually assume that the capillary pressure (the difference o...
International audienceFully implicit time-space discretizations applied to the two-phase Darcy flow ...
We demonstrate through numerical simulations and a mean-field calculation that immiscible two-phase ...
A gradient theory of grade two based on an axiomatic conception of a nonlocal continuum theory for m...
The extended Darcy’s law is a commonly used equation for the description of immiscible two-phase flo...