Add to ORKGBy using dimension reduction and homogenization techniques, we study the steady flow of an incompresible viscoplastic Bingham fluid in a thin porous medium. A main feature of our study is the dependence of the yield stress of the Bingham fluid on the small parameters describing the geometry of the thin porous medium under consideration. Three different problems are obtained in the limit when the small parameter ε tends to zero, following the ratio between the height ε of the porous medium and the relative dimension aε of its periodically distributed pores. We conclude with the interpretation of these limit problems, which all preserve the nonlinear character of the flow
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
Abstract. We derive a macroscopic model for single phase, incompressible, viscous fluid flow in a po...
By using the unfolding operators for periodic homogenization, we give a general compactness result f...
By using the unfolding operators for periodic homogenization, we give a general compactness result f...
International audienceBy using the unfolding operators for periodic homogenization, we give a genera...
We are interested in the homogenization of a stationary Bingham ow in a porous medium.A rigorous jus...
We are interested in the homogenization of a stationary Bingham ow in a porous medium.A rigorous jus...
International audienceWe are interested in the homogenization of a stationary Bingham flow in a poro...
The present thesis is devoted to the derivation of Darcy's law for incompressible viscous fluid flow...
The present thesis is devoted to the derivation of Darcy's law for incompressible viscous fluid flow...
AbstractWe study the behavior of the solution to the non-stationary Stokes equations in a porous med...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
summary:The goal of this paper is to present a different approach to the homogenization of the Diric...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
Abstract. We derive a macroscopic model for single phase, incompressible, viscous fluid flow in a po...
By using the unfolding operators for periodic homogenization, we give a general compactness result f...
By using the unfolding operators for periodic homogenization, we give a general compactness result f...
International audienceBy using the unfolding operators for periodic homogenization, we give a genera...
We are interested in the homogenization of a stationary Bingham ow in a porous medium.A rigorous jus...
We are interested in the homogenization of a stationary Bingham ow in a porous medium.A rigorous jus...
International audienceWe are interested in the homogenization of a stationary Bingham flow in a poro...
The present thesis is devoted to the derivation of Darcy's law for incompressible viscous fluid flow...
The present thesis is devoted to the derivation of Darcy's law for incompressible viscous fluid flow...
AbstractWe study the behavior of the solution to the non-stationary Stokes equations in a porous med...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
summary:The goal of this paper is to present a different approach to the homogenization of the Diric...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
The present thesis is devoted to derivation of Darcy’s Law for incompressible Newtonian fluid in per...
Abstract. We derive a macroscopic model for single phase, incompressible, viscous fluid flow in a po...