CIMEC   24726
CENTRO DE INVESTIGACION DE METODOS COMPUTACIONALES
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
A new Turbulence Model based on Lagrangian Flows and Multi-Scale Homogenization
Autor/es:
GIMENEZ, JUAN M.; NIGRO, NORBERTO M.; IDELSOHN, SERGIO R.; RYZHAKOV, PAVEL
Lugar:
Glasgow
Reunión:
Congreso; 6 th European Conference on Computational Mechanics (ECCM 6 ); 2018
Resumen:
 Although the Navier-Stokes equations represent correctly both, laminar fluid flows as well as turbulent ones, the current power of the computers does not allow solving the latter without making empirical approximations that make the results are only predictable within the same margins from which the empirical approximation was realized.  Taking into account that the vast majority of fluid flows that must be simulated by the industries are indeed of a turbulent nature, this makes it worthwhile to continue improving the models so that they fit more and more with the physics-mathematic equations. The current project in which we are working is in that sense.Based on previous work, we are proposing a new turbulence model that fits more with the physic and can be solved in one of the current computer. Always within the multi-scale models, in which all the turbulence model are based, the new idea consists in: a) treating the macro-scale with lagrangian particles, which convect and diffuse the turbulence; b) solving the micro-scale as a problem of unstable laminar fluid flow subjected to velocity gradients; c) applying a Reduction Order Model (ROM) or a Machine Learning technique to solve quickly the micro-scale; d) going from the micro-scale to the macro-scale as in a Global-Local Model with a ROM.