Progress on numerical modeling of geophysical flows for environment and natural hazards
Progress on numerical modeling of geophysical flows for environment and natural hazards
Progress on numerical modeling of geophysical flows for environment and natural hazards
Organizer: Morales de la Luna, Tomás y Garres Díaz, José (Universidad de Córdoba)
Abstract
It is undisputed that the numerical simulation of geophysical processes plays nowadays a central role for understanding the interactions of complex natural phenomena and for making predictions when systems are perturbed.
The main goal of the mini-symposium will be the discussion and presentation of state-of-the-art computational and numerical methods for the next generation of geophysical flow models for environment and natural hazards with a focus on finite volume discretizations.
Keywords: geophysical flows, hyperbolic systems, depth-averaged models.
Session 9. Friday 11:30-13:10. Room A3.
Chair: Morales de la Luna, Tomás (Universidad de Córdoba)
Speaker |
Organization |
Contribution title |
Koellermeier, Julian |
KU Leuven |
Modeling free-surface flows with vertically-resolved velocity profiles using moments |
Guerrero Fernández, Ernesto |
Universidad de Málaga |
An arbitrary high order ADER Discontinous Galerking (DG) numerical scheme for the multilayer shallow water model with variable density. |
Garres Díaz, José |
Universidad de Córdoba |
Bedload transport models with gravitational effects: general formulation and semi-implicit approach |
Fernández Nieto, Enrique Domingo |
Universidad de Sevilla |
A correction of the motion/stop criteria in depth-averaged granular flow models |