Course Syllabus
Titolo
Geotechnical modelling for slope stability and underground geostructures
Docente(i)
Riccardo Castellanza ; Giovanni Crosta
Lingua
English
Breve descrizione
This course provides a general overview of advanced numerical modelling (finite elements based) in geotechnical engineering, engineering geology and also other problems. A specific and detailed critical discussion on existing and new techniques for numerical analyses of unstable slopes and underground geostructures will be provided. The course is subdivided into 5 parts:
(1) Introduction to numerical modelling of geotechnical problems;
(2) Definition of the global PDE (Partial Differential Equations) system to cope with complex geotechnical problems including slopes and geostructures;
(3) 3D Finite Element Method (3D FEM) specific aspects, coupled problems: chemo-thermo-hydro-mechanical modelling;
(4) Explicative case studies;
(5) New trends in numerical modelling in geomechanics: MPM (Material Point Method) and PFEM (Particles Finite Element Methods); multiphase problems; CFD (Computational Fluid Dynamics)
Evaluation: YES
CFU / Ore
2 CFU - 20 Hours (8h lecture - 12h laboratory training)
Periodo di erogazione
II semester
Title
Geotechnical modelling for slope stability and underground geostructures
Teacher(s)
Riccardo Castellanza ; Giovanni Crosta
Language
English
Short description
This course provides a general overview of advanced numerical modelling (finite elements based) in geotechnical engineering, engineering geology and also other problems. A specific and detailed critical discussion on existing and new techniques for numerical analyses of unstable slopes and underground geostructures will be provided. The course is subdivided into 5 parts:
(1) Introduction to numerical modelling of geotechnical problems;
(2) Definition of the global PDE (Partial Differential Equations) system to cope with complex geotechnical problems including slopes and geostructures;
(3) 3D Finite Element Method (3D FEM) specific aspects, coupled problems: chemo-thermo-hydro-mechanical modelling;
(4) Explicative case studies;
(5) New trends in numerical modelling in geomechanics: MPM (Material Point Method) and PFEM (Particles Finite Element Methods); multiphase problems; CFD (Computational Fluid Dynamics)
Evaluation: YES
CFU / Hours
2 CFU - 20 Hours (8h lecture - 12h laboratory training)
Teaching period
II semester
Key information
Staff
-
Riccardo Pietro Castellanza
-
Giovanni Crosta