Erlend Storvik scite author profile

Summary In this work, we are interested in efficiently solving the quasi‐static, linear Biot model for poroelasticity. We consider the fixed‐stress splitting scheme, which is a popular method for iteratively solving Biot's equations. It is well known that the convergence properties of the method strongly depend on the applied stabilization/tuning parameter. We show theoretically that, in addition to depending on the mechanical properties of the porous medium and the coupling coefficient, they also depend on the fluid flow and spatial discretization properties. The type of analysis presented in this paper is not restricted to a particular spatial discretization, although it is required to be inf‐sup stable with respect to the displacement‐pressure formulation. Furthermore, we propose a way to optimize this parameter that relies on the mesh independence of the scheme's optimal stabilization parameter. Illustrative numerical examples show that using the optimized stabilization parameter can significantly reduce the number of iterations.

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An accelerated staggered scheme for variational phase-field models of brittle fracture

Storvik

Both

Sargado

et al. 2021

Computer Methods in Applied Mechanics and Engineering

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A Cahn–Hilliard–Biot system and its generalized gradient flow structure

Storvik

Both

Nordbotten

et al. 2022

Applied Mathematics Letters

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DarSIA: An open-source Python toolbox for two-scale image processing of dynamics in porous media

Nordbotten¹,

Benali²,

Both³

et al. 2023

Preprint

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Room-scale CO2 injections in a physical reservoir model with faults

Ferno¹,

Haugen²,

Eikehaug³

et al. 2023

Preprint

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Erlend Storvik

On the optimization of the fixed‐stress splitting for Biot's equations

An accelerated staggered scheme for variational phase-field models of brittle fracture

A Cahn–Hilliard–Biot system and its generalized gradient flow structure

DarSIA: An open-source Python toolbox for two-scale image processing of dynamics in porous media

Room-scale CO2 injections in a physical reservoir model with faults

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