Research Interests
Applications:
Two-phase porous media flows, Non-isothermal flows, Poroelasticity, Fractured porous media,
Porous media-free flow coupling,
Flood modeling
Discretization methods:
Polytopal finite volume schemes, Gradient discretisations, Multi-scale methods
Solvers:
Two-level domain decomposition, preconditioned Newton’s method
Recent talks
Robust Numerical Solution of Richards' Equation
Under Dry Conditions,
CMWR conference (online), Gdansk, June 2022
Autour de l'équation de Richards et de sa résolution numérique,
Seminar at IRMAR, Rennes, June 2022
Two-Phase Flow in Fractured Rocks: Modeling and Numerical Difficulties,
Workshop of the project INSPIRE, Porquerolles mai 2022
Autour de l'équation de Richards et de sa résolution numérique,
Seminar at LAGA (online), Paris, June 2021
Numerical modeling of two-phase flow in fractured porous media,
STAS conference (online), Sydney, July 2022
Projects
PHC Aurora GradFlowPoro: Gradient Flow Modeling of multi-phase flow in Deformable Porous media.
ANR Top-up: High-resolution topography upscaling for overland flows.
ANR GeoFun: Geophysical flows with unified models.
EURAD: European joint programme on radioactive waste management,
Development/improvement of numerical methods & tools for modelling coupled processes.
HDTHM associate team: Hybrid-Dimensional Thermo-Hydro-Mechanical models.
Past projects
INSPIRE: International Open Source Simulation software partnership in Research and Education.
ANR CHARMS:
Quantitative Reservoir ModelS for Complex Hydrothermal Systems.
ANR GEOPOR:
Approche géométrique pour les écoulements en milieux poreux: théorie et numérique.
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