We investigated the effect of in situ stresses on fluid flow in a natural fracture network. The fracture network model is based on an actual critically connected (i.e., close to the percolation threshold) fracture pattern mapped from a field outcrop. We derive stress-dependent fracture aperture fields using a hybrid finite-discrete element method. We analyze the changes of aperture distribution and fluid flow field with variations of in situ stress orientation and magnitude. Our simulations show that an isotropic stress loading tends to reduce fracture apertures and suppress fluid flow, resulting in a decrease of equivalent permeability of the fractured rock. Anisotropic stresses may cause a significant amount of sliding of fracture walls a...
In fractured rocks of low permeability, the hydraulic properties of the rock mass are strongly influ...
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...
International audienceWe investigated the effect of in situ stresses on fluid flow in a natural frac...
In this study, the combined effects of geometrical distribution and geomechanical deformation of fra...
The influence of in-situ stresses on flow processes in fractured rock is investigated using a novel ...
The authors consider the problem of defining the fracture permeability tensor for each grid lock in ...
International audienceAfter more than three decades of research, flows in fractured media have been ...
We investigate the stress-dependent permeability issue in fractured rock masses considering the effe...
We investigate the stress-dependent permeability issue in fractured rock masses considering the eff...
The effects of stress on the 2-D permeability tensor of natural fracture networks were studied using...
We investigate the stress-dependent permeability issue in fractured rock masses considering the effe...
Fracture network connectivity and aperture (or conductivity) distribution are two crucial features c...
The flow properties of geomechanically generated discrete fracture networks are examined in the cont...
Brittle experimental deformation on dolomite rocks shows for the first time the difference in growth...
In fractured rocks of low permeability, the hydraulic properties of the rock mass are strongly influ...
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...
International audienceWe investigated the effect of in situ stresses on fluid flow in a natural frac...
In this study, the combined effects of geometrical distribution and geomechanical deformation of fra...
The influence of in-situ stresses on flow processes in fractured rock is investigated using a novel ...
The authors consider the problem of defining the fracture permeability tensor for each grid lock in ...
International audienceAfter more than three decades of research, flows in fractured media have been ...
We investigate the stress-dependent permeability issue in fractured rock masses considering the effe...
We investigate the stress-dependent permeability issue in fractured rock masses considering the eff...
The effects of stress on the 2-D permeability tensor of natural fracture networks were studied using...
We investigate the stress-dependent permeability issue in fractured rock masses considering the effe...
Fracture network connectivity and aperture (or conductivity) distribution are two crucial features c...
The flow properties of geomechanically generated discrete fracture networks are examined in the cont...
Brittle experimental deformation on dolomite rocks shows for the first time the difference in growth...
In fractured rocks of low permeability, the hydraulic properties of the rock mass are strongly influ...
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...