In this paper, an algebraic multigrid method is suggested for the fully coupled thermo- hydro-mechanical analysis in deforming porous media. The mathematical model consists of balance equations of mass, linear momentum and energy and of the appropriate constitutive equations. The chosen macroscopic field variables are temperature, capillary pressure, gas pressure and displacement. The gas phase is considered to be an ideal gas composed of dry air and vapour, which are regarded as two miscible species. Phase change as well as heat transfer through conduction and convection and latent heat transfer (evaporation-condensation) are taken into account. The problem hence presents an interaction problem between several fields with very different re...
This work presents the development of a fully coupled mathematical and numerical model for the analy...
A fully coupled numerical model to simulate the complex behaviour of soil deformation, water flow, a...
The aim of this work is the numerical study of the thermal consolidation process in the framework of...
In this paper, an algebraic multigrid method is suggested for the fully coupled thermo- hydro-mechan...
In this paper, a parallel Newton-Raphson algorithm with domain decomposition is developed to solve f...
In this paper, a multi-frontal parallel algorithm is developed to solve fully coupled heat, water an...
A fully coupled numerical model to simulate the slow transient phenomena involving heat and mass tra...
This work presents the development of a mathematical and numerical model for the analysis of the the...
This paper analyses the numerical difficulties commonly encountered in solving fully coupled numeric...
Presents a fully coupled numerical model to simulate the slow transient phenomena involving heat and...
This work presents the development of a mathematical and numerical model for the analysis of the th...
Nowadays an increasing interest on thermo-hydro-mechanical analysis of multiphase porous media is ob...
This paper presents a formulation for the computational analysis of thermo-elasto-plastic multiphase...
In realistic consolidation problems with complex 3D heterogeneous domains the efficient and accurate...
A fully coupled thermo-hydro-deformation (THM) model has been presented in this thesis. The proposed...
This work presents the development of a fully coupled mathematical and numerical model for the analy...
A fully coupled numerical model to simulate the complex behaviour of soil deformation, water flow, a...
The aim of this work is the numerical study of the thermal consolidation process in the framework of...
In this paper, an algebraic multigrid method is suggested for the fully coupled thermo- hydro-mechan...
In this paper, a parallel Newton-Raphson algorithm with domain decomposition is developed to solve f...
In this paper, a multi-frontal parallel algorithm is developed to solve fully coupled heat, water an...
A fully coupled numerical model to simulate the slow transient phenomena involving heat and mass tra...
This work presents the development of a mathematical and numerical model for the analysis of the the...
This paper analyses the numerical difficulties commonly encountered in solving fully coupled numeric...
Presents a fully coupled numerical model to simulate the slow transient phenomena involving heat and...
This work presents the development of a mathematical and numerical model for the analysis of the th...
Nowadays an increasing interest on thermo-hydro-mechanical analysis of multiphase porous media is ob...
This paper presents a formulation for the computational analysis of thermo-elasto-plastic multiphase...
In realistic consolidation problems with complex 3D heterogeneous domains the efficient and accurate...
A fully coupled thermo-hydro-deformation (THM) model has been presented in this thesis. The proposed...
This work presents the development of a fully coupled mathematical and numerical model for the analy...
A fully coupled numerical model to simulate the complex behaviour of soil deformation, water flow, a...
The aim of this work is the numerical study of the thermal consolidation process in the framework of...