Multirate Undrained Splitting for Coupled Flow and Geomechanics in Porous Media
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Publication:3179686
DOI10.1007/978-3-319-39929-4_41zbMath1387.76100OpenAlexW2553998284MaRDI QIDQ3179686
Gurpreet Singh, Kundan Kumar, T. Almani, Mary Fanett Wheeler
Publication date: 19 December 2016
Published in: Lecture Notes in Computational Science and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/978-3-319-39929-4_41
Related Items (10)
A second order multirate scheme for the evolutionary Stokes-Darcy model ⋮ Convergence of the undrained split iterative scheme for coupling flow with geomechanics in heterogeneous poroelastic media ⋮ Convergence analysis of single rate and multirate fixed stress split iterative coupling schemes in heterogeneous poroelastic media ⋮ Stability of multirate explicit coupling of geomechanics with flow in a poroelastic medium ⋮ Three-way coupling of multiphase flow and poromechanics in porous media ⋮ A posteriori error estimates for Biot system using enriched Galerkin for flow ⋮ Guaranteed and computable error bounds for approximations constructed by an iterative decoupling of the Biot problem ⋮ Convergence and error analysis of fully discrete iterative coupling schemes for coupling flow with geomechanics ⋮ Convergence analysis of multirate fixed-stress split iterative schemes for coupling flow with geomechanics ⋮ Convergence of single rate and multirate undrained split iterative schemes for a fractured Biot model
Cites Work
- Convergence of iterative coupling of geomechanics with flow in a fractured poroelastic medium
- Stability and convergence of sequential methods for coupled flow and geomechanics: drained and undrained splits
- Numerical convergence study of iterative coupling for coupled flow and geomechanics
- Convergence of iterative coupling for coupled flow and geomechanics
- Diffusion in poro-elastic media
- Mixed finite elements for the Richards' equation: linearization procedure
- A robust linearization scheme for finite volume based discretizations for simulation of two-phase flow in porous media
- A coupling of mixed and continuous Galerkin finite element methods for poroelasticity. I: The continuous in time case
- A decoupling method with different subdomain time steps for the nonstationary stokes–darcy model
- A Multipoint Flux Mixed Finite Element Method
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