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CORIA is a Joint Research Unit (UMR) attached to the Institute of Engineering and Systems (INSIS) of the CNRS, the University of Rouen and the Institute of Applied Sciences (INSA) of Rouen. It is located on the Madrillet Technopole, near Rouen, in Normandie.

The CORIA research fields cover fundamental and applied studies dedicated to reactive or non-reactive flows: multiphase flows, turbulent mixing phenomena, combustion, plasmas, etc. Physical mechanisms and processes leading to the reduction of pollutant production in reactive systems are also included within the main research activities.

 

 

 

 

 

 

 

 

 

 

 

 

Keywords

Light scattering Image processing Diffusion de la lumière Supersonic combustion Multiphase flow Simulation numérique Flameless combustion RDG-FA Autoignition CLSMOF CO2 Flame structure Soot Flame filtering Combustion Interferometric out-of-focus imaging Hot wire anemometry Atomisation Anémométrie Doppler Laser ADL Genetic algorithm Simulation numérique directe Turbulence APG boundary layer Jets Turbulent combustion modeling Aerosol Optical diagnostics Scattering Unstructured grids Numerical simulations Combustion turbulente Chemiluminescence Alkali metal DNS Aérosols Allumage Turbulent combustion LES Nanoparticles CFD Direct numerica Numerical simulation Reduced chemistry Large eddy simulation Cavitation Adaptive Mesh Refinement Evaporation Turbulent flame Large-eddy simulation Large Eddy Simulation Digital holography Computational fluid dynamics Simulation aux grandes échelles Velocity Multiphase flows Refractive index Drops Flamme turbulente Entrée atmosphérique Two-phase flow Annular jet Droplets Chimiluminescence Spray jet flame COMBUSTION Suies Simulation Hydrogen Chaos Fluid mechanics PIV Oxygen enrichment Acoustics Spray Deconvolution PIV particle image velocimetry CLSVOF Monte Carlo Atomization Holography Experiment Chemistry tabulation Interface Direct numerical simulation Combustion instability Chimie tabulée Fluid dynamics Chemistry reduction Drop size distribution Mixing Large-Eddy Simulation Ignition CO2 capture Laminar burning velocity Aerosols Methane Agrégats Tabulated chemistry Absorption Aggregates

 

 

 

 

 

 

 

Collaborations

 

 

 

 

 

Types

Fields