Geomaterials are modelled as deforming multiphase porous media with a solid, liquid and/or gaseous phase. The models differ according to the mass transfer mechanism taking place at high, medium or low water content. The Finite Element Method is used for the discretization in space of the governing equations
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
The aim of this paper is numerical analysis of the coupled hydro-thermo-mechanical (HTM) behavior of...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
This paper presents a general framework for the computational analysis of environmental geomechanics...
A finite element formulation for a saturated and partially saturated porous medium undergoing large ...
A mathematical model for non-isothermal multiphase geomaterials which considers the dissolution of a...
Finite element analysis of non-isothermal elasto-plastic multiphase geomaterials is presented. The m...
This paper presents a general framework for the computational analysis of geo-environmental mechanic...
This paper presents a general framework for the computational analysis of geo-environmental mechanic...
Finite element analysis of non-isothermal elasto- plastic multiphase geomaterials is presented. The ...
peer reviewedThis paper is the basis for a course dedicated to geomechanics for energy production. A...
A mathematical model for a saturated and partially saturated non-isothermal porous medium is present...
The purpose of this poster is to present a new finite element formulation for the hydro-thermo-mecha...
A mathematical model for a saturated and partially saturated non-isothermal porous medium is present...
This paper is the basis for a course dedicated to the geomechanics modelling, taking into account mu...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
The aim of this paper is numerical analysis of the coupled hydro-thermo-mechanical (HTM) behavior of...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
This paper presents a general framework for the computational analysis of environmental geomechanics...
A finite element formulation for a saturated and partially saturated porous medium undergoing large ...
A mathematical model for non-isothermal multiphase geomaterials which considers the dissolution of a...
Finite element analysis of non-isothermal elasto-plastic multiphase geomaterials is presented. The m...
This paper presents a general framework for the computational analysis of geo-environmental mechanic...
This paper presents a general framework for the computational analysis of geo-environmental mechanic...
Finite element analysis of non-isothermal elasto- plastic multiphase geomaterials is presented. The ...
peer reviewedThis paper is the basis for a course dedicated to geomechanics for energy production. A...
A mathematical model for a saturated and partially saturated non-isothermal porous medium is present...
The purpose of this poster is to present a new finite element formulation for the hydro-thermo-mecha...
A mathematical model for a saturated and partially saturated non-isothermal porous medium is present...
This paper is the basis for a course dedicated to the geomechanics modelling, taking into account mu...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
The aim of this paper is numerical analysis of the coupled hydro-thermo-mechanical (HTM) behavior of...
The numerical model is based on a fully coupled heat and multiphase flow model in deforming porous m...
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