International audienceAfter more than three decades of research, flows in fractured media have been shown to result from multi-scale geological structures. Flows result non-exclusively from the damage zone of the large faults, from the percolation within denser networks of smaller fractures, from the aperture heterogeneity within the fracture planes and from some remaining permeability within the matrix. While the effect of each of these causes has been studied independently, global assessments of the main determinisms is still needed. We propose a general approach to determine the geological structures responsible for flows, their permeability and their organization based on field data and numerical modeling [de Dreuzy et al., 2012b]. Mult...
International audienceA major use of Discrete Fracture Network models (DFN) is to evaluate permeabil...
Many open pit mines are located in fractured rock systems where water flow paths are complex and dif...
Fracture network connectivity and aperture (or conductivity) distribution are two crucial features c...
International audienceAfter more than three decades of research, flows in fractured media have been ...
International audienceClassical dual-porosity models and homogenization approaches fail to represent...
Fracture network connectivity and aperture (or conductivity) distribution are two crucial features c...
In this study, the combined effects of geometrical distribution and geomechanical deformation of fra...
In fractured rocks of low permeability, the hydraulic properties of the rock mass are strongly influ...
International audienceThe objective of the paper is to better understand and quantify the flow struc...
We investigated the effect of in situ stresses on fluid flow in a natural fracture network. The frac...
International audienceWhile permeability scaling of fractured media has been so far studied independ...
Many open pit mines are located in fractured rock systems where water flow paths are complex and dif...
Many open pit mines are located in fractured rock systems where water flow paths are complex and dif...
Abstract: The paper aims at defining the flow models, including equivalent permeability, that are ap...
International audienceA major use of Discrete Fracture Network models (DFN) is to evaluate permeabil...
Many open pit mines are located in fractured rock systems where water flow paths are complex and dif...
Fracture network connectivity and aperture (or conductivity) distribution are two crucial features c...
International audienceAfter more than three decades of research, flows in fractured media have been ...
International audienceClassical dual-porosity models and homogenization approaches fail to represent...
Fracture network connectivity and aperture (or conductivity) distribution are two crucial features c...
In this study, the combined effects of geometrical distribution and geomechanical deformation of fra...
In fractured rocks of low permeability, the hydraulic properties of the rock mass are strongly influ...
International audienceThe objective of the paper is to better understand and quantify the flow struc...
We investigated the effect of in situ stresses on fluid flow in a natural fracture network. The frac...
International audienceWhile permeability scaling of fractured media has been so far studied independ...
Many open pit mines are located in fractured rock systems where water flow paths are complex and dif...
Many open pit mines are located in fractured rock systems where water flow paths are complex and dif...
Abstract: The paper aims at defining the flow models, including equivalent permeability, that are ap...
International audienceA major use of Discrete Fracture Network models (DFN) is to evaluate permeabil...
Many open pit mines are located in fractured rock systems where water flow paths are complex and dif...
Fracture network connectivity and aperture (or conductivity) distribution are two crucial features c...