The development of cell-centered finite volume discretizations for deformation is motivated by the desire for a compatible approach with the discretization of fluid flow in deformable porous media. We express the conservation of momentum in the finite volume sense, and introduce three approximations methods for the cell-face stresses. The discretization method is developed for general grids in one to three spatial dimensions, and leads to a global discrete system of equations for the displacement vector in each cell, after which the stresses are calculated based on a local expression. The method allows for anisotropic, heterogeneous and discontinuous coefficients. The novel finite volume discretization is justified through numerical validat...
In this paper, we study newly developed methods for linear elasticity on polyhedral meshes. Our emph...
In this chapter, we present fv-unsat, a multipoint finite-volume–based solver for unsaturated flow i...
Accurate simulation of the coupled fluid flow and solid deformation in porous media is challenging, ...
The development of cell-centered finite volume discretizations for deformation is motivated by the d...
Cell-centered finite volume methods are prevailing in numerical simulation of flow in porous media. ...
We introduce a new cell‐centered finite volume discretization for elasticity with weakly enforced sy...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
We show convergence of a cell-centered finite volume discretization for linear elasticity. The discr...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
This paper further explores fundamental issues on the behaviour of a finite volume technique using s...
The original publication is available at www.springerlink.comInternational audienceThis paper presen...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
We present a cell-centered finite volume method for the fully coupled discretization of single-phase...
The proposed numerical scheme solves the linear poroelasticity equations, which refers to fluid flow...
The demand for accurate and efficient simulations in order to test the geomechanical effects is a re...
In this paper, we study newly developed methods for linear elasticity on polyhedral meshes. Our emph...
In this chapter, we present fv-unsat, a multipoint finite-volume–based solver for unsaturated flow i...
Accurate simulation of the coupled fluid flow and solid deformation in porous media is challenging, ...
The development of cell-centered finite volume discretizations for deformation is motivated by the d...
Cell-centered finite volume methods are prevailing in numerical simulation of flow in porous media. ...
We introduce a new cell‐centered finite volume discretization for elasticity with weakly enforced sy...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
We show convergence of a cell-centered finite volume discretization for linear elasticity. The discr...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
This paper further explores fundamental issues on the behaviour of a finite volume technique using s...
The original publication is available at www.springerlink.comInternational audienceThis paper presen...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
We present a cell-centered finite volume method for the fully coupled discretization of single-phase...
The proposed numerical scheme solves the linear poroelasticity equations, which refers to fluid flow...
The demand for accurate and efficient simulations in order to test the geomechanical effects is a re...
In this paper, we study newly developed methods for linear elasticity on polyhedral meshes. Our emph...
In this chapter, we present fv-unsat, a multipoint finite-volume–based solver for unsaturated flow i...
Accurate simulation of the coupled fluid flow and solid deformation in porous media is challenging, ...