This paper deals with the stabilization of the poroelasticity system, in the incompressible fully dynamic case. The stabilization term is a perturbation of the equilibrium equation that allows us to use central difference schemes to approximate the first order spatial derivatives, yielding numerical solutions without oscillations independently of the chosen discretization parameters. The perturbation term is a discrete Laplacian of the forward time difference, affected by a stabilization parameter depending on the mesh size and the properties of the porous medium. In the one dimensional case, this parameter is shown to be optimal. Some numerical experiments are presented to show the efficiency of the proposed stabilization technique
We construct a stabilized finite-element method to compute flow and finitestrain deformations in an ...
The interaction between a fluid and a poroelastic structure is a complex problem that couples the Na...
The fixed-stress splitting scheme is a popular method for iteratively solving the Biot equations. Th...
This paper deals with the stabilization of the poroelasticity system, in the incompressible fully dy...
In this work, we are interested in efficiently solving the quasi‐static, linear Biot model for poroe...
The coupled equations of Biot's poroelasticity, consisting of stress equilibrium and fluid mass bala...
A number of methods have been developed for solving the dynamics of saturated porous media, mostly b...
In this work, we are interested in efficiently solving the quasi-static, linear Biot model for poroe...
The solution of problems in which coupling occurs between the displacement of the soil skeleton and ...
In this work, we consider the popular P1–RT0–P0 discretization of the three-field formulation of Bio...
International audienceAn explicit time-stepping finite-difference scheme is presented for solving Bi...
The interaction between a fluid and a poroelastic structure is a complex problem that couples the Na...
Abstract. The interaction between a free fluid and a deformable porous medium is found in a wide ran...
We propose a new formulation along with a family of finite element schemes for the approximation of ...
We consider the numerical solution of boundary value problems for poroelastic plates. The basic syst...
We construct a stabilized finite-element method to compute flow and finitestrain deformations in an ...
The interaction between a fluid and a poroelastic structure is a complex problem that couples the Na...
The fixed-stress splitting scheme is a popular method for iteratively solving the Biot equations. Th...
This paper deals with the stabilization of the poroelasticity system, in the incompressible fully dy...
In this work, we are interested in efficiently solving the quasi‐static, linear Biot model for poroe...
The coupled equations of Biot's poroelasticity, consisting of stress equilibrium and fluid mass bala...
A number of methods have been developed for solving the dynamics of saturated porous media, mostly b...
In this work, we are interested in efficiently solving the quasi-static, linear Biot model for poroe...
The solution of problems in which coupling occurs between the displacement of the soil skeleton and ...
In this work, we consider the popular P1–RT0–P0 discretization of the three-field formulation of Bio...
International audienceAn explicit time-stepping finite-difference scheme is presented for solving Bi...
The interaction between a fluid and a poroelastic structure is a complex problem that couples the Na...
Abstract. The interaction between a free fluid and a deformable porous medium is found in a wide ran...
We propose a new formulation along with a family of finite element schemes for the approximation of ...
We consider the numerical solution of boundary value problems for poroelastic plates. The basic syst...
We construct a stabilized finite-element method to compute flow and finitestrain deformations in an ...
The interaction between a fluid and a poroelastic structure is a complex problem that couples the Na...
The fixed-stress splitting scheme is a popular method for iteratively solving the Biot equations. Th...