Coupling Biot and Navier-Stokes equations for modelling fluid-poroelastic media interaction

A posteriori error estimates for a nonconforming finite element discretization of the Stokes-Biot system, A mixed elasticity formulation for fluid–poroelastic structure interaction, A Lagrange multiplier method for a Stokes-Biot fluid-poroelastic structure interaction model, Nonconforming finite element methods for a Stokes/Biot fluid-poroelastic structure interaction model, A consistent computational approach for general fluid-poroelasticity-structure-contact interaction problems, An operator splitting approach for the interaction between a fluid and a multilayered poroelastic structure, A loosely-coupled scheme for the interaction between a fluid, elastic structure and poroelastic material, Multiscale modelling and homogenisation of fibre-reinforced hydrogels for tissue engineering, A finite element scheme for the numerical solution of the Navier-Stokes/Biot coupled problem, Variational interior and interface transmission conditions: multidomain mixed Darcy/Stokes control problems, Computational analysis of energy distribution of coupled blood flow and arterial deformation, Permeability estimation of a porous structure in cancer treatment based on sampled velocity measurement*, Parameter-robust methods for the Biot-Stokes interfacial coupling without Lagrange multipliers, A general approach for modeling interacting flow through porous media under finite deformations, A Nitsche-based cut finite element method for the coupling of incompressible fluid flow with poroelasticity, A posteriori error analysis for a Lagrange multiplier method for a Stokes/Biot fluid-poroelastic structure interaction model, Simulation of Flow in Fractured Poroelastic Media: A Comparison of Different Discretization Approaches, Finite volume method for coupled subsurface flow problems. II: Poroelasticity, Stabilized Lowest-Order Finite Element Approximation for Linear Three-Field Poroelasticity, The locking-free finite difference method based on staggered grids for the coupled Stokes–Biot problem, Novel multiscale models in a multicontinuum approach to divide and conquer strategies, A multipoint stress-flux mixed finite element method for the Stokes-Biot model, Two finite element approaches for Darcy and Darcy-Brinkman flow through deformable porous media-mixed method vs. NURBS based (isogeometric) continuity, Modeling of flow-induced sound in porous materials, A combined fluid-structure interaction and multi-field scalar transport model for simulating mass transport in biomechanics, Decoupled modified characteristic finite element method for the time‐dependent Navier–Stokes/Biot problem, Numerical analysis of the coupling of free fluid with a poroelastic material, Second‐order, loosely coupled methods for fluid‐poroelastic material interaction, Semilinear Degenerate Biot–Signorini System, Projection based semi-implicit partitioned reduced basis method for fluid-structure interaction problems, Multiphysics mixed finite element method with Nitsche's technique for Stokes‐poroelasticity problem, Analysis of a linearized poromechanics model for incompressible and nearly incompressible materials, A staggered finite element procedure for the coupled Stokes-Biot system with fluid entry resistance, A stable pressure-correction MAC scheme for the fluid-Poroelastic material interaction problem, A semi-decoupled MAC scheme for the coupled fluid-poroelastic material interaction, A poroelastic fluid–structure interaction model of syringomyelia, Hybridizable discontinuous Galerkin methods for the coupled Stokes-Biot problem, A virtual element method for overcoming locking phenomena in Biot’s consolidation model, A decoupled stabilized finite element method for the time–dependent Navier–Stokes/Biot problem, Monolithic multigrid method for the coupled Stokes flow and deformable porous medium system, A stabilized finite element method for finite-strain three-field poroelasticity, Optimization-Based Decoupling Algorithms for a Fluid-Poroelastic System, General coupling of porous flows and hyperelastic formulations -- from thermodynamics principles to energy balance and compatible time schemes, Robin-Robin preconditioned Krylov methods for fluid-structure interaction problems, Homogenization of biomechanical models of plant tissues with randomly distributed cells, Partitioning strategies for the interaction of a fluid with a poroelastic material based on a Nitsche's coupling approach, Hybrid mimetic finite-difference and virtual element formulation for coupled poromechanics, Analysis of the coupled Navier-Stokes/Biot problem, ON THE INTERFACE LAW BETWEEN A DEFORMABLE POROUS MEDIUM CONTAINING A VISCOUS FLUID AND AN ELASTIC BODY, Multilayered Poroelasticity Interacting with Stokes Flow, Biot-pressure system with unilateral displacement constraints, Homogenization of Biomechanical Models for Plant Tissues, A poroelastic model valid in large strains with applications to perfusion in cardiac modeling, Mathematical analysis and numerical approximation of a general linearized poro-hyperelastic model, Stable Cell-Centered Finite Volume Discretization for Biot Equations, A nonlinear Stokes–Biot model for the interaction of a non-Newtonian fluid with poroelastic media, Locking-Free Finite Element Methods for Poroelasticity, Iterative splitting schemes for a soft material poromechanics model, The Biot-Stokes coupling using total pressure: formulation, analysis and application to interfacial flow in the eye, Flow and transport in fractured poroelastic media, Cell-centered finite-volume method for heterogeneous anisotropic poromechanics problem, A Next-Generation Mathematical Model for Drug-Eluting Stents, Numerical Modeling of the Fluid-Porohyperelastic Structure Interaction, Existence and uniqueness results on biphasic mixture model for an in-vivo tumor

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