Mechanics, geomodelization and risks (memory)
The MeMoRy theme develops geomechanical and geomodeling approaches to characterize and represent our subsoil and discuss geological risks.
The Memory theme brings theorists, experimenters and modelers together. These researchers work together to develop a finer understanding:
♦ of structures and properties of the sub-surface,
♦ of resources who may be there,
♦ of Risks on structures that can be built there,
♦ and the impacts of its exploitation on theenvironment and companies.
The research carried out within the theme Memory is at the intersection between:
♦ geosciences (geology, hydrogeology, geophysics),
♦ Engineering sciences (rock, soil and fluid mechanics, cindynics, civil engineering),
♦ computer science (programming, software engineering, numerical simulation),
♦ and human and social sciences.
This research covers a Wide range of spatial scales. These range from a few nanometers to several hundred kilometers. Above all, the teams are interested in Scale Changes brought into play in the physical, industrial or societal problems posed by the exploration and exploitation of the subsoil.
Research teams involved in MeMoRy
Scientific questions of the theme Mechanical, geomodelization and risks (MeMoRy)
♦ What descriptions of fractured heterogeneous porous media and their behavior? What training mechanisms andEvolution?
♦ How to quantify and integrate uncertainties to improve underground understanding and management? How to assess and reduce the associated risks?
♦ Multiple data, multiple physics: how to describe and predict the behavior of geological systems in the face of natural and anthropogenic pressures?
Research themes on mechanics, geomodelization and risks (MeMoRy)
Scientific expertises of the HGM team - Multi-scale Hydro-Geomechanics
♦ Transfer in porous media
♦ Rock mechanics
♦ Geomechanics
♦ Multiphysic couplings (in geoscience)
♦ Multiscale approaches
♦ Geological storage and repository
♦ Fractured reservoirs
♦ Reactive transport
Discover the HGM team's research projects
Scientific expertises of the GOR team – Geomechanics, Structures, and Risks
♦ Fractured rock masses
♦ Behavior of fault zones
♦ Behavior of underground structures
♦ Risks and uncertainties in geotechnics
♦ Geohazards and territories
♦ Reliability of geotechnical structures
♦ Geomechanical numerical modeling
♦ Geomechanical physical modeling
♦ Mining and post-mining operations
♦ Multi-stakeholder and multi-scale decision support
Discover the GOR team's research projects
Scientific expertises of the RING team - Research for Integrative Numerical Geology
♦ Geomodeling research
♦ Subsurface uncertainty
♦ Inverse problem
♦ Geophysical Modeling
♦ Hydrogeology
Discover the RING team's research projects