Abstract. We present a fully implicit, monolithic finite element solution scheme to efficiently solve the governing set of differential algebraic equations of incompressible poro-elastodynamics. Thereby, we proceed from a two-dimensional, biphasic, saturated porous medium model with intrinsically coupled and incompressible solid and fluid constituents. Our approach, motivated by well-accepted CFD techniques and originally developed for the efficient simulation of incompressible flow problems, is characterized by the following aspects: (1) a special treatment of the algebraically coupled volume balance equation leading to a reduced form of the boundary conditions; (2) usage of a higher-order accurate mixed LBB-stable finite element pair with...
A fully coupled dynamic model is presented for the analysis of water and air flow in deforming porou...
We introduce a numerical method for the approximation of linear poroelasticity equations, representi...
The interaction between fluid flow and a deformable porous medium is a complicated multi-physics pro...
We present a fully implicit, monolithic finite element solution scheme to efficiently solve the gov...
This dissertation presents a fully implicit, monolithic finite element solution scheme to effectivel...
This paper presents a new efficient monolithic finite element solution scheme to treat the set of PD...
The solution of problems in which coupling occurs between the displacement of the soil skeleton and ...
ABSTRACT An efficient finite element procedure to analyze transient phenomena in dry and/or fluid-sa...
This study presents the formulation and implementation of a fully implicit stabilised Material Point...
The mechanical behavior of porous media is governed by the interaction between its solid skeleton an...
This work utilizes numerical models to investigate the importance of poroelasticity in Fluid- Struct...
Several geotechnical engineering problems involve the interaction between deformation of the soil sk...
In soil mechanics assumption of only vertical subsidence is often invoked and this leads to the one-...
A moving grid finite element method is developed to solve the nonlinear coupled set of partial diffe...
In this work, we present a finite element formulation for variably-saturated porous geomaterials und...
A fully coupled dynamic model is presented for the analysis of water and air flow in deforming porou...
We introduce a numerical method for the approximation of linear poroelasticity equations, representi...
The interaction between fluid flow and a deformable porous medium is a complicated multi-physics pro...
We present a fully implicit, monolithic finite element solution scheme to efficiently solve the gov...
This dissertation presents a fully implicit, monolithic finite element solution scheme to effectivel...
This paper presents a new efficient monolithic finite element solution scheme to treat the set of PD...
The solution of problems in which coupling occurs between the displacement of the soil skeleton and ...
ABSTRACT An efficient finite element procedure to analyze transient phenomena in dry and/or fluid-sa...
This study presents the formulation and implementation of a fully implicit stabilised Material Point...
The mechanical behavior of porous media is governed by the interaction between its solid skeleton an...
This work utilizes numerical models to investigate the importance of poroelasticity in Fluid- Struct...
Several geotechnical engineering problems involve the interaction between deformation of the soil sk...
In soil mechanics assumption of only vertical subsidence is often invoked and this leads to the one-...
A moving grid finite element method is developed to solve the nonlinear coupled set of partial diffe...
In this work, we present a finite element formulation for variably-saturated porous geomaterials und...
A fully coupled dynamic model is presented for the analysis of water and air flow in deforming porou...
We introduce a numerical method for the approximation of linear poroelasticity equations, representi...
The interaction between fluid flow and a deformable porous medium is a complicated multi-physics pro...