This paper presents a mathematical model for the analysis of cohesive fracture propagation through a non-homogeneous porous medium. Governing equations are stated within the frame of Biot's theory, accounting for the flow through the solid skeleton, along the fracture and across its sides toward the surrounding medium. The numerical solution is obtained in a 2D context, exploiting the capabilities of an efficient mesh generator, and requires continuous updating of the domain as the fractures enucleate and propagate. It results that fracture paths and their velocity of propagation, usually assumed as known, are supplied directly by the model without introducing any simplifying assumption
We present a fracture model in a poro-elastic medium. The model describes the fracture as a curve or...
An extension to a finite strain framework of a two-scale numerical model for propagating crack in po...
In this paper we use an eXtended Finite Element Method based model for the simulation of shear fract...
This paper presents a mathematical model for the analysis of hydraulic cohesive fracture propagation...
International audienceA 3D fully coupled hydromechanical model for the simulation of fluid-driven fr...
In this paper, we present a general partition of unity-based cohesive zone model for fracture propag...
International audienceThis paper considers the problem of a fluid-driven fracture propagating in a p...
A two-scale model is developed for fluid flow in a deforming, unsaturated and progressively fracturi...
The partial differential equations governing the hydraulic fracture propagation in partially saturat...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
A new computational technique for the simulation of 2D and 3D fracture propagation processes in satu...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
Understanding crack propagation in hydraulic fracturing for purposes of enhanced oil recovery, gas r...
International audienceThe present work focuses on a new numerical model for the fully coupled hydro-...
International audienceIn this article, we present a numerical method to model the propagation of a f...
We present a fracture model in a poro-elastic medium. The model describes the fracture as a curve or...
An extension to a finite strain framework of a two-scale numerical model for propagating crack in po...
In this paper we use an eXtended Finite Element Method based model for the simulation of shear fract...
This paper presents a mathematical model for the analysis of hydraulic cohesive fracture propagation...
International audienceA 3D fully coupled hydromechanical model for the simulation of fluid-driven fr...
In this paper, we present a general partition of unity-based cohesive zone model for fracture propag...
International audienceThis paper considers the problem of a fluid-driven fracture propagating in a p...
A two-scale model is developed for fluid flow in a deforming, unsaturated and progressively fracturi...
The partial differential equations governing the hydraulic fracture propagation in partially saturat...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
A new computational technique for the simulation of 2D and 3D fracture propagation processes in satu...
A derivation is given of two-scale models that are able to describe deformation and flow in a fluid-...
Understanding crack propagation in hydraulic fracturing for purposes of enhanced oil recovery, gas r...
International audienceThe present work focuses on a new numerical model for the fully coupled hydro-...
International audienceIn this article, we present a numerical method to model the propagation of a f...
We present a fracture model in a poro-elastic medium. The model describes the fracture as a curve or...
An extension to a finite strain framework of a two-scale numerical model for propagating crack in po...
In this paper we use an eXtended Finite Element Method based model for the simulation of shear fract...