An increasing number of geo-energy applications require the quantitative prediction of hydromechanical response in subsurface. Integration of mass, momentum, and energy conservation laws becomes essential for performance and risk analysis of enhanced geothermal systems, stability assessment of CO2 sequestration and hydrogen storage, resolving the issue of induced seismicity. The latter problem is of particular interest because it exposes safety risks to people and surface infrastructure.Implicit coupling of conservation laws is computationally demanding and the solution procedure often uses different numerical methods for different laws that complicates simulation. Recently developed Finite Volume (FV) schemes for poromechanics present a un...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
Geomechanical modelling is generally used to simulate the nucleation of induce d earthquakes in, for...
A smoothed embedded finite-volume modeling (sEFVM) method is presented for faulted and fractured het...
We develop a collocated Finite Volume Method (FVM) to study induced seismicity as a result of pore p...
We present a scalable collocated Finite Volume Method (FVM) to simulate induced seismicity as a resu...
Development of enhanced geothermal systems (EGS) will require creation of a reservoir of sufficient ...
Fractures control fluid flow and the coupled geomechanical response of geological media in many geo-...
The subsurface of Groningen gas field composed of several faults. The continuous production has been...
Shear-dilation-based hydraulic stimulations are conducted to create enhanced geothermal systems (EGS...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
Coupling between fluid flow and mechanical deformation in porous media plays a critical role in geol...
We constructed a coupled model to obtain a better understanding of the role of pore pressure changes...
Various phenomena in the subsurface are characterised by the interplay between deforming structures ...
AbstractCoupling between fluid flow and mechanical deformation in porous media plays a critical role...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
Geomechanical modelling is generally used to simulate the nucleation of induce d earthquakes in, for...
A smoothed embedded finite-volume modeling (sEFVM) method is presented for faulted and fractured het...
We develop a collocated Finite Volume Method (FVM) to study induced seismicity as a result of pore p...
We present a scalable collocated Finite Volume Method (FVM) to simulate induced seismicity as a resu...
Development of enhanced geothermal systems (EGS) will require creation of a reservoir of sufficient ...
Fractures control fluid flow and the coupled geomechanical response of geological media in many geo-...
The subsurface of Groningen gas field composed of several faults. The continuous production has been...
Shear-dilation-based hydraulic stimulations are conducted to create enhanced geothermal systems (EGS...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
When modelling fluid fl ow in subsurface, the impact of solid deformation on fluid fl ow is often ov...
Coupling between fluid flow and mechanical deformation in porous media plays a critical role in geol...
We constructed a coupled model to obtain a better understanding of the role of pore pressure changes...
Various phenomena in the subsurface are characterised by the interplay between deforming structures ...
AbstractCoupling between fluid flow and mechanical deformation in porous media plays a critical role...
We propose a multiscale finite volume method (MSFV) for simulation of coupled flow-deformation in he...
Geomechanical modelling is generally used to simulate the nucleation of induce d earthquakes in, for...
A smoothed embedded finite-volume modeling (sEFVM) method is presented for faulted and fractured het...