We develop a collocated Finite Volume Method (FVM) to study induced seismicity as a result of pore pressure fluctuations. A discrete system is obtained based on a fully-implicit coupled description of flow, elastic deformation, and contact mechanics at fault surfaces on a fully unstructured mesh. The cell-centered collocated scheme leads to convenient integration of the different physical equations, as the unknowns share the same discrete locations on the mesh. Additionally, a multi-point flux approximation is formulated in a general procedure to treat heterogeneity, anisotropy, and cross-derivative terms for both flow and mechanics equations. The resulting system, though flexible and accurate, can lead to excessive computational costs for ...
Induced seismicity (earthquakes caused by injection or extraction of fluids in Earth's subsurface) i...
The standard paradigm to describe seismicity induced by fluid injection is to apply non-linear diffu...
In reservoir simulations, one of the biggest challenges is solving large modelswith complex geologic...
We present a scalable collocated Finite Volume Method (FVM) to simulate induced seismicity as a resu...
An increasing number of geo-energy applications require the quantitative prediction of hydromechanic...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
We couple a node-centered finite volume method to a high order finite dif- ference method to simulat...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
A smoothed embedded finite-volume modeling (sEFVM) method is presented for faulted and fractured het...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
We couple a node-centered finite volume method to a high order finite difference method to simulate ...
Complex geometric and geological features of realistic reservoirs motivate the need for flexible and...
Building geomechanical models for induced seismicity in complex reservoirs poses a major challenge, ...
The demand for accurate and efficient simulations in order to test the geomechanical effects is a re...
The development of cell-centered finite volume discretizations for deformation is motivated by the d...
Induced seismicity (earthquakes caused by injection or extraction of fluids in Earth's subsurface) i...
The standard paradigm to describe seismicity induced by fluid injection is to apply non-linear diffu...
In reservoir simulations, one of the biggest challenges is solving large modelswith complex geologic...
We present a scalable collocated Finite Volume Method (FVM) to simulate induced seismicity as a resu...
An increasing number of geo-energy applications require the quantitative prediction of hydromechanic...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
We couple a node-centered finite volume method to a high order finite dif- ference method to simulat...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
A smoothed embedded finite-volume modeling (sEFVM) method is presented for faulted and fractured het...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
We couple a node-centered finite volume method to a high order finite difference method to simulate ...
Complex geometric and geological features of realistic reservoirs motivate the need for flexible and...
Building geomechanical models for induced seismicity in complex reservoirs poses a major challenge, ...
The demand for accurate and efficient simulations in order to test the geomechanical effects is a re...
The development of cell-centered finite volume discretizations for deformation is motivated by the d...
Induced seismicity (earthquakes caused by injection or extraction of fluids in Earth's subsurface) i...
The standard paradigm to describe seismicity induced by fluid injection is to apply non-linear diffu...
In reservoir simulations, one of the biggest challenges is solving large modelswith complex geologic...