In this paper a numerical method for the simulation of the steady-state fluid flow in discrete fracture networks is described. It is based on the use of non-conforming meshes, enrichment functions and an optimization procedure. The meshing process is performed on each fracture independently of the other fractures, i.e. without geometrical conformity at the intersections (traces). The slope discontinuities due to the flux exchange at the traces are then captured with the enrichment functions of the extended finite elements, and finally a functional is minimized by resorting to an optimization procedure. The method can be easily implemented for parallel computers being based on many small independent problems. In order to show the effectivene...
In recent papers the authors introduced a new method for simulating subsurface flow in a system of f...
We present a comprehensive workflow to simulate single-phase flow and transport in fractured porous ...
In the present work we consider the problem of performing underground flow simulations in fractured ...
A new approach for the simulation of the steady-state flow in discrete fracture networks is presente...
Simulations of fluid flow in naturally fractured rocks have implications for several subsurface appl...
The thesis deals with theoretical and applicative aspects of some innovative numerical techniques fo...
Abstract: The paper reviews computational algorithms with application to modelling multiph...
International audienceWe study flow in fractured media. We propose to decouple flow problem between ...
In this note the issue of fluid flow computation in a Discrete Fracture-Matrix (DFM) model is addres...
International audienceNatural fractured media are characterized by their diversity of structures and...
We investigate a new numerical approach for the computation of the 3D flow in a discrete fracture ne...
A new numerical scheme is proposed for flow computation in complex discrete fracture networks. The m...
In this note the issue of fluid flow computation in a Discrete Fracture-Matrix (DFM) model is addres...
Modeling fluid flow in three-dimensional (3D) Discrete Fracture Networks (DFNs) is of relevance in m...
In recent papers the authors introduced a new method for simulating subsurface flow in a system of f...
We present a comprehensive workflow to simulate single-phase flow and transport in fractured porous ...
In the present work we consider the problem of performing underground flow simulations in fractured ...
A new approach for the simulation of the steady-state flow in discrete fracture networks is presente...
Simulations of fluid flow in naturally fractured rocks have implications for several subsurface appl...
The thesis deals with theoretical and applicative aspects of some innovative numerical techniques fo...
Abstract: The paper reviews computational algorithms with application to modelling multiph...
International audienceWe study flow in fractured media. We propose to decouple flow problem between ...
In this note the issue of fluid flow computation in a Discrete Fracture-Matrix (DFM) model is addres...
International audienceNatural fractured media are characterized by their diversity of structures and...
We investigate a new numerical approach for the computation of the 3D flow in a discrete fracture ne...
A new numerical scheme is proposed for flow computation in complex discrete fracture networks. The m...
In this note the issue of fluid flow computation in a Discrete Fracture-Matrix (DFM) model is addres...
Modeling fluid flow in three-dimensional (3D) Discrete Fracture Networks (DFNs) is of relevance in m...
In recent papers the authors introduced a new method for simulating subsurface flow in a system of f...
We present a comprehensive workflow to simulate single-phase flow and transport in fractured porous ...
In the present work we consider the problem of performing underground flow simulations in fractured ...