Start Date
7-12-2017 10:00 AM
End Date
7-12-2017 10:45 AM
Description
Now it has become necessary to develop our capability to directly simulate many emerging coastal ocean flow and wave problems. These flow problems present a common challenge to our modeling capability; they involve multiphysics phenomena spanning a vast range of spatial and temporal scales, however, so far essentially we have no methods and computer software to directly and integrally simulate these phenomena. Now it has become necessary for us to develop new capability to model them in efficient ways and high-fidelity. Towards this goal, we have developed a brand new, unprecedented modeling system that is able to directly evaluate many emerging multiscale, multiphysics flow problems. In this presentation, the newly developed modeling system will be introduced, together with numerical experiments and applications.
Included in
A Modeling System for Integral Simulation of Propagation of Ocean Surge and Wave and Their Impinging on Coastal Structure (Extended Abstract)
Now it has become necessary to develop our capability to directly simulate many emerging coastal ocean flow and wave problems. These flow problems present a common challenge to our modeling capability; they involve multiphysics phenomena spanning a vast range of spatial and temporal scales, however, so far essentially we have no methods and computer software to directly and integrally simulate these phenomena. Now it has become necessary for us to develop new capability to model them in efficient ways and high-fidelity. Towards this goal, we have developed a brand new, unprecedented modeling system that is able to directly evaluate many emerging multiscale, multiphysics flow problems. In this presentation, the newly developed modeling system will be introduced, together with numerical experiments and applications.
Comments
This work is supported by NSF (CMMI-1334551). Partial support also comes from the UTRC and PSC-CUNY programs.