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Modeling fluid injection in fractures with a reservoir simulator coupled to a boundary element method - MaRDI portal

Modeling fluid injection in fractures with a reservoir simulator coupled to a boundary element method

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Publication:723175

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DOI10.1007/s10596-013-9396-5zbMath1392.76078OpenAlexW2121470112MaRDI QIDQ723175

Thomas Wick, A. Sakhaee-Pour, Benjamin Ganis, Mark E. Mear, Mary Fanett Wheeler

Publication date: 30 July 2018

Published in: Computational Geosciences (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1007/s10596-013-9396-5

zbMATH Keywords

boundary element poroelasticity multipoint flux mixed finite element mimetic finite difference Galerkin finite element saturated fracture

Mathematics Subject Classification ID

Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Flows in porous media; filtration; seepage (76S05) Finite element, Rayleigh-Ritz and Galerkin methods for boundary value problems involving PDEs (65N30) Finite element methods applied to problems in fluid mechanics (76M10) PDEs in connection with geophysics (35Q86)

Related Items (12)

A refined two-scale model for newtonian and non-Newtonian fluids in fractured poroelastic media ⋮ Pressure and fluid-driven fracture propagation in porous media using an adaptive finite element phase field model ⋮ Multiphysics mixed finite element method with Nitsche's technique for Stokes‐poroelasticity problem ⋮ Sub-grid models for multiphase fluid flow inside fractures in poroelastic media ⋮ An augmented-Lagrangian method for the phase-field approach for pressurized fractures ⋮ Partitioning strategies for the interaction of a fluid with a poroelastic material based on a Nitsche's coupling approach ⋮ Sampling-based stochastic analysis of the PKN model for hydraulic fracturing ⋮ Analysis of the coupled Navier-Stokes/Biot problem ⋮ An extended finite volume model for implicit cohesive zone fracture propagation in a poroelastic medium ⋮ Modeling of hydraulic fracture of concrete gravity dams by stress-seepage-damage coupling model ⋮ Flow and transport in fractured poroelastic media ⋮ A Phase-Field Method for Propagating Fluid-Filled Fractures Coupled to a Surrounding Porous Medium

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