Abstract Cell-centered finite volume methods are prevailing in numerical simulation of flow in porous media. However, due to the lack of cell-centered finite volume methods for mechanics, coupled flow and deformation is usually treated either by coupled finite-volume-finite element discretizations, or within a finite element setting. The former approach is unfavorable as it introduces two separate grid structures, while the latter approach loses the advantages of finite volume methods for the flow equation. Recently, we proposed a cell-centered finite volume method for elasticity. Herein, we explore the applicability of this novel method to provide a compatible finite volume discretization for coupled hydromechanic flows in porous media. We...
In this paper, we propose and verify a numerical approach to simulate fluid flow in deformable porou...
In this paper, we introduce a mortar-based approach to discretizing flow in fractured porous media, ...
We introduce a new cell‐centered finite volume discretization for elasticity with weakly enforced sy...
Cell-centered finite volume methods are prevailing in numerical simulation of flow in porous media. ...
The development of cell-centered finite volume discretizations for deformation is motivated by the d...
We present a cell-centered finite volume method for the fully coupled discretization of single-phase...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
Summary. In this paper a computational framework for the analysis of coupled hydro-fracture flow in ...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
The consolidation of a porous medium in the presence of strong discontinuities (cracks) can prove hi...
International audienceA two‐scale numerical model is developed for fluid flow in fractured, deformin...
In Chapter 1, a finite volume-based arbitrary fracture propagation model is used to simulate fractur...
Models that involve coupled dynamics in a mixed-dimensional geometry are of increasing interest in s...
Accurate and efficient simulation on the fluid flow and deformation in porous media is of increasing...
In this paper, we propose and verify a numerical approach to simulate fluid flow in deformable porou...
In this paper, we introduce a mortar-based approach to discretizing flow in fractured porous media, ...
We introduce a new cell‐centered finite volume discretization for elasticity with weakly enforced sy...
Cell-centered finite volume methods are prevailing in numerical simulation of flow in porous media. ...
The development of cell-centered finite volume discretizations for deformation is motivated by the d...
We present a cell-centered finite volume method for the fully coupled discretization of single-phase...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
Summary. In this paper a computational framework for the analysis of coupled hydro-fracture flow in ...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
The consolidation of a porous medium in the presence of strong discontinuities (cracks) can prove hi...
International audienceA two‐scale numerical model is developed for fluid flow in fractured, deformin...
In Chapter 1, a finite volume-based arbitrary fracture propagation model is used to simulate fractur...
Models that involve coupled dynamics in a mixed-dimensional geometry are of increasing interest in s...
Accurate and efficient simulation on the fluid flow and deformation in porous media is of increasing...
In this paper, we propose and verify a numerical approach to simulate fluid flow in deformable porou...
In this paper, we introduce a mortar-based approach to discretizing flow in fractured porous media, ...
We introduce a new cell‐centered finite volume discretization for elasticity with weakly enforced sy...