Naturally fractured reservoirs have been a source of challenging issues with regard to field
development, well stability, drilling, and enhanced oil recovery, as a connected fracture …

We present a simulation framework for fast monitoring of fault stability and ground
deformation in multiphase geomechanics and demonstrate its efficacy for a joint CO 2 …

Reservoir geomechanical models provide valuable information for various applications
ranging from the prediction of surface subsidence to the determination of pore pressure and …

The withdrawal of fluid from a reservoir results in a decline of the fluid pressure followed by a
consequent change in stress state in porous rocks. Stress change may cause irreversible …

Permeability an important property plays a key role in reservoir performance, numerical
reservoir simulation, drilling and production planning. In such reservoirs, stress and strain …

Poroviscoelastic models have been widely employed to the modeling of hydrated biological
tissues, since they allow to investigate the biomechanical responses associated with the …

Approximately 70% of the world's hydrocarbon fields are located in reservoirs with low-
strength rocks such as sandstone. During the production of hydrocarbons from sandstone …

During thermal steam stimulation in the unconsolidated oilsands reservoir, fractures are
often created to enhance injectivity. This process involves pressurizing and heating the …

Assessing reservoir subsidence due to depletion involves understanding the geological and
geophysical processes that lead to ground subsidence as a result of reservoir fluid …

Large-scale fluid flow in porous media demands intense computations and occurs in the
most diverse applications, including groundwater flow and oil recovery. This article presents …