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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

Simulation Multiphase flows LIBS Atomization Image processing Phosphor thermometry Tabulated chemistry Turbulence Interface PIV Biomass Ignition Turbulent combustion modeling Interferometric particle imaging Optical forces Soot Flame-wall interaction Vectorial complex ray model Combustion Large-eddy simulation Annular jet Nanoparticles Computational fluid dynamics RDG-FA Modeling Viscosity Multiphase flow Refractive index Laminar burning velocity Diffusion de la lumière Large-Eddy Simulation Temperature OH-PLIF Aerosol Hydrogen Mécanique des fluides numérique Droplets Chimie tabulée Genetic algorithm Turbulent flame Numerical simulation Optique géométrique LES Jets Light scattering Unstructured grids CLSVOF Acoustics Direct numerical simulation Laser induced fluorescence Two-phase flows Monte Carlo Experiment Flame stability Oxygen enrichment CFD Chaos Absorption Optical diagnostics Chemiluminescence Turbulent combustion Simulation numérique directe Drop size distribution Mixing Atomisation Large Eddy Simulation COMBUSTION Laser diagnostics Nanofluid Spray Heat transfer Rayleigh limit Large eddy simulation Fluid dynamics High-order methods Flameless combustion Holography Fluid mechanics Evaporation Simulation aux grandes échelles Interferometric out-of-focus imaging Thermal conductivity Artificial neural network Direct numerica Generalized Lorenz–Mie theory Optimization Curvature Simulation numérique Beam shape coefficients DNS Dispersion Chemistry reduction Combustion turbulente Direct Numerical Simulation Cavitation Digital holography Plasma Generalized Lorenz-Mie theory Two-phase flow Speckle

 

 

 

 

 

 

 

Collaborations

 

 

 

 

 

Types

Fields