Home > Teams > MOST team: Turbulence Modelling and Simulation > Research activity
The research team project is to better predict, understand and control turbulent and multiphases flows by using high-fidelity unsteady simulations. The project is then composed in 3 main axes to cover a broad range of research activities from the development of simulation methodologies to the physical analysis of turbulent flows based on numerical experiments:
- Models and methods development (axe 1)
- Analysis and control of fundamental processes (axe 2)
- Transfer to applications (axe 3)
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Financial Support : CNRS 80|PRIME
Collaboration : J. Le Sommer (IGE, Grenoble) et R. Fablet (Lab-STICC, Brest)
Sub-grid scale closures are key ingredients for turbulent flows simulations. Such (...)
Financial support : LabEx Tec21
The objective of this thesis is the numerical simulation of the boiling phenomenon on unstructured grids. Boiling is the phase change of fluid particles from the (...)
Financial support : Region Auvergne Rhône Alpes (FRI Transfert)
Collaboration : P. Benard (CORIA, Rouen)
The aim of this work is to implement more recent and efficient near wall modeling methods (...)
Financial support : FUI Plateforme
In a liquid, cavitation is the appearance of vapor bubbles caused by the fluid passing below vapor pressure, most often due to high pressure variations around (...)
Financial support : ED IMEP2
Nucleate boiling is a phenomenon appearing in many industrial processes en- abling to exchange a lot of energy by using the latent heat of a heat transfert fluid. (...)
Financial support : PSPC INNOV’HYDRO
Collaboration : G. Lartigue and V. Moureau (CORIA, Rouen)
The aim of this work is to improve the accuracy of numerical schemes on unstructured meshes in (...)
Financement : ED de physique
Collaboration : V. Rossetto et L. Canet (LPMMC, Grenoble)
The first statistical description of turbulence was proposed by Kolmogorov in 1941. It is based on the (...)
Financial Support : ANR DYNEOL
Collaboration : P. Bénard and V. Moureau (CORIA Rouen)
In order to predict the power generated by a wind or a marine turbine, it is necessary to simulate the flow (...)
Financial Support : LabEx OSUG2020
Collaboration : C. Brun and E. Negretti (MEIGE Team)
The aim of this project is to improve the understanding and modeling of gravity currents, which are (...)
Financement : CIFRE Hydroquest
Collaboration : S. Barre (ENERGETIQUE team), C. Bonamy (CFD expert) and N. Guillaud (Hydroquest)
With the increase of energy demand, renewable energies such as (...)
