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Rotation-Based Mixed Formulations for an Elasticity-Poroelasticity Interface Problem

Verónica Anaya, Zoa de Wijn, Bryan Gómez-Vargas, David Mora, Ricardo Ruíz-Baier

2020SIAM Journal on Scientific Computing17 citationsDOI

Abstract

In this paper we introduce a new formulation for the stationary poroelasticity equations written using the rotation vector and the total fluid-solid pressure as additional unknowns, and we also write an extension to the elasticity-poroelasticity problem. The transmission conditions are imposed naturally in the weak formulation, and the analysis of the effective governing equations is conducted by an application of Fredholm's alternative. We also propose a monolithically coupled mixed finite element method for the numerical solution of the problem. Its convergence properties are rigorously derived and subsequently confirmed by a set of computational tests that include applications to subsurface flow in reservoirs as well as to dentistry-oriented problems.

Topics & Concepts

PoromechanicsMathematicsElasticity (physics)Finite element methodApplied mathematicsFredholm integral equationRotation (mathematics)Mathematical optimizationConvergence (economics)Mathematical analysisIntegral equationGeometryPorous mediumPorosityGeotechnical engineeringThermodynamicsEngineeringEconomic growthComposite materialMaterials scienceEconomicsPhysicsAdvanced Numerical Methods in Computational MathematicsAdvanced Mathematical Modeling in EngineeringHydraulic Fracturing and Reservoir Analysis
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