A partially parallel-in-time fixed-stress splitting method for Biot's consolidation model

Locking-free finite element methods for poroelasticity

Oyarzúa, R
Ruiz Baier, Ricardo

September 2016

We propose a new formulation along with a family of finite element schemes for the approximation of ...

Finite element solution to coupled consolidation equations

FERRONATO, MASSIMILIANO

January 2002

The consolidation theory was developed in a three-dimensional (3D) setting by Biot, giving rise to a...

Monolithic and splitting solution schemes for fully coupled quasi-static thermo-poroelasticity with nonlinear convective transport

Brun, Mats Kirkesæther
Ahmed, Elyes
Berre, Inga
Nordbotten, Jan Martin
Radu, Florin Adrian

January 2020

This paper concerns monolithic and splitting-based iterative procedures for the coupled nonlinear th...

A partially parallel-in-time fixed-stress splitting method for Biot's consolidation model

Borregales, Manuel
Kumar, Kundan
Radu, Florin Adrian
Rodrigo, Carmen
Gaspar, Francisco

October 2018

In this work, we study the parallel-in-time iterative solution of coupled flow and geomechanics in p...

Adaptive poromechanics computations based on a posteriori error estimates for fully mixed formulations of Biot's consolidation model

Ahmed, Elyes
Adrian Radu, Florin
Nordbotten, Jan Martin

November 2018

This paper is concerned with the analysis of coupled mixed finite element methods applied to the Bio...

The Fixed-Stress splitting scheme for Biot's equations as a modified Richardson iteration: Implications for optimal convergence

Storvik, Erlend
Both, Jakub
Nordbotten, Jan Martin
Radu, Florin Adrian

January 2021

The fixed-stress splitting scheme is a popular method for iteratively solving the Biot equations. Th...

Iterative splitting schemes for a soft material poromechanics model

Both J. W.
Barnafi N. A.
Radu F. A.
Zunino P.
Quarteroni A.

January 2022

We address numerical solvers for a poromechanics model particularly adapted for soft materials, as i...

Adaptive asynchronous time-stepping, stopping criteria, and a posteriori error estimates for fixed-stress iterative schemes for coupled poromechanics problems

Ahmed, Elyes
Nordbotten, Jan
Radu, Florin Adrian

January 2020

In this paper we develop adaptive iterative coupling schemes for the Biot system modeling coupled po...

On the optimization of the fixed-stress splitting for Biot’s equations

Storvik, Erlend
Both, Jakub W.
Kumar, Kundan
Nordbotten, Jan M.
Radu, Florin A.

January 2019

In this work, we are interested in efficiently solving the quasi-static, linear Biot model for poroe...

Hybrid Fixed-Point Fixed-Stress Splitting Method for Linear Poroelasticity

Paul M. Delgado
V. M. Krushnarao Kotteda
Vinod Kumar

January 2019

Efficient and accurate poroelasticity models are critical in modeling geophysical problems such as o...

On the fixed-stress split scheme as smoother in multigrid methods for coupling flow and geomechanics

Gaspar, Francisco J.
Rodrigo, Carmen

January 2017

The fixed-stress split method has been widely used as solution method in the coupling of flow and ge...

On the optimization of iterative schemes for solving non-linear and/or coupled PDEs

Storvik, Erlend

January 2018

In this thesis we study the optimization of iterative schemes as both linearization methods, and as ...

Numerical convergence study of iterative coupling for coupled flow and geomechanics

Mikelic, Andro
Wheeler, M.F.
Wang, Bin

September 2014

International audienceIn this paper we consider algorithms for modeling complex processes in porous ...

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

Storvik, Erlend
Both, Jakub
Kumar, Kundan
Nordbotten, Jan Martin
Radu, Florin Adrian

January 2019

In this work, we are interested in efficiently solving the quasi‐static, linear Biot model for poroe...

Robust iterative schemes for non-linear poromechanics

Borregales Reveron, Manuel Antonio
Radu, Florin Adrian
Kumar, Kundan
Nordbotten, Jan Martin

December 2019

We consider a non-linear extension of Biot’s model for poromechanics, wherein both the fluid flow an...

Locking-free finite element methods for poroelasticity

Oyarzúa, R
Ruiz Baier, Ricardo

September 2016

We propose a new formulation along with a family of finite element schemes for the approximation of ...

Finite element solution to coupled consolidation equations

FERRONATO, MASSIMILIANO

January 2002

The consolidation theory was developed in a three-dimensional (3D) setting by Biot, giving rise to a...

Monolithic and splitting solution schemes for fully coupled quasi-static thermo-poroelasticity with nonlinear convective transport

Brun, Mats Kirkesæther
Ahmed, Elyes
Berre, Inga
Nordbotten, Jan Martin
Radu, Florin Adrian

January 2020

This paper concerns monolithic and splitting-based iterative procedures for the coupled nonlinear th...

A partially parallel-in-time fixed-stress splitting method for Biot's consolidation model

Borregales, Manuel
Kumar, Kundan
Radu, Florin Adrian
Rodrigo, Carmen
Gaspar, Francisco

October 2018

In this work, we study the parallel-in-time iterative solution of coupled flow and geomechanics in p...

Adaptive poromechanics computations based on a posteriori error estimates for fully mixed formulations of Biot's consolidation model

Ahmed, Elyes
Adrian Radu, Florin
Nordbotten, Jan Martin

November 2018

This paper is concerned with the analysis of coupled mixed finite element methods applied to the Bio...

The Fixed-Stress splitting scheme for Biot's equations as a modified Richardson iteration: Implications for optimal convergence

Storvik, Erlend
Both, Jakub
Nordbotten, Jan Martin
Radu, Florin Adrian

January 2021

The fixed-stress splitting scheme is a popular method for iteratively solving the Biot equations. Th...

Iterative splitting schemes for a soft material poromechanics model

Both J. W.
Barnafi N. A.
Radu F. A.
Zunino P.
Quarteroni A.

January 2022

We address numerical solvers for a poromechanics model particularly adapted for soft materials, as i...

Adaptive asynchronous time-stepping, stopping criteria, and a posteriori error estimates for fixed-stress iterative schemes for coupled poromechanics problems

Ahmed, Elyes
Nordbotten, Jan
Radu, Florin Adrian

January 2020

In this paper we develop adaptive iterative coupling schemes for the Biot system modeling coupled po...

On the optimization of the fixed-stress splitting for Biot’s equations

Storvik, Erlend
Both, Jakub W.
Kumar, Kundan
Nordbotten, Jan M.
Radu, Florin A.

January 2019

In this work, we are interested in efficiently solving the quasi-static, linear Biot model for poroe...

Hybrid Fixed-Point Fixed-Stress Splitting Method for Linear Poroelasticity

Paul M. Delgado
V. M. Krushnarao Kotteda
Vinod Kumar

January 2019

Efficient and accurate poroelasticity models are critical in modeling geophysical problems such as o...

On the fixed-stress split scheme as smoother in multigrid methods for coupling flow and geomechanics

Gaspar, Francisco J.
Rodrigo, Carmen

January 2017

The fixed-stress split method has been widely used as solution method in the coupling of flow and ge...

On the optimization of iterative schemes for solving non-linear and/or coupled PDEs

Storvik, Erlend

January 2018

In this thesis we study the optimization of iterative schemes as both linearization methods, and as ...

Numerical convergence study of iterative coupling for coupled flow and geomechanics

Mikelic, Andro
Wheeler, M.F.
Wang, Bin

September 2014

International audienceIn this paper we consider algorithms for modeling complex processes in porous ...

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

Storvik, Erlend
Both, Jakub
Kumar, Kundan
Nordbotten, Jan Martin
Radu, Florin Adrian

January 2019

In this work, we are interested in efficiently solving the quasi‐static, linear Biot model for poroe...

Robust iterative schemes for non-linear poromechanics

Borregales Reveron, Manuel Antonio
Radu, Florin Adrian
Kumar, Kundan
Nordbotten, Jan Martin

December 2019

We consider a non-linear extension of Biot’s model for poromechanics, wherein both the fluid flow an...

Locking-free finite element methods for poroelasticity

Oyarzúa, R
Ruiz Baier, Ricardo

September 2016

We propose a new formulation along with a family of finite element schemes for the approximation of ...

Finite element solution to coupled consolidation equations

FERRONATO, MASSIMILIANO

January 2002

The consolidation theory was developed in a three-dimensional (3D) setting by Biot, giving rise to a...

Monolithic and splitting solution schemes for fully coupled quasi-static thermo-poroelasticity with nonlinear convective transport

Brun, Mats Kirkesæther
Ahmed, Elyes
Berre, Inga
Nordbotten, Jan Martin
Radu, Florin Adrian

January 2020

This paper concerns monolithic and splitting-based iterative procedures for the coupled nonlinear th...

A partially parallel-in-time fixed-stress splitting method for Biot's consolidation model

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A partially parallel-in-time fixed-stress splitting method for Biot's consolidation model

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