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This collection presents the publications of the Laboratory of Excellence in Chemical Kinetics and Aerothermodynamics for Clean and Safe Propulsion and Energy Systems - Labex CAPRYSSES (ANR-11-LABX-0006-01) which brings together 150 researchers, lecturers/researchers and PhD students.
Supported by the ICARE, PRISME and GREMI laboratories, Labex CAPRYSSES maintains cooperation with 25 industrial partners.

The three research areas of the Labex CAPRYSSES are :
  • Combustion : Internal combustion engines, gas turbines and gasification
  • Propulsion: Aerospace propulsion
  • Industrial safety: Mitigation of chemical explosion and safety of industrial sites


Cinétique chimique et Aérothermodynamique pour des Propulsions et des Systèmes Energétiques Propres et Sûrs.

Update: October 2022.

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Modeling Diethyl ether Motored engine Burning velocity Limonene Microgravity Biofuels H2O/CO2 dilution Auto-ignition Low pressure Kinetics modeling Ketohydroperoxides Shock tube Jet stirred reactor Pyrolysis Kinetic modeling Kinetics Pollutant emissions Ignition delay Korcek reaction Hydrothermal carbonization Diffusion flame Flame wrinkling Hydrogen Aerosol Terpenes Alkyl nitrates Chemical kinetics Stereo-PIV Rate constant Rarefied flow Laminar burning velocity Jet-Stirred reactor Ethanol Orbitrap Laminar flame speed Flame structure Supersonic Oxidation -mechanism Droplet Flickering Ignition Methane Jet-stirred reactor Wind tunnel Kinetic modelling Waverider Autoxidation Micro-combustion Highly oxygenated molecules Ammonia OH Swirling flame Falloff curve Combustion Kinetic model Dipropyl ether Burning time Chemiluminescence Flammability High resolution mass spectrometry Oxygen enrichment Keto-hydroperoxides Laminar flame Atmospheric lifetime Ionization of plasmas Flame vortex interactions NH2 Rapid compression machine Oxidation Turbulent premixed combustion Low-temperature oxidation Flame stability Aluminum combustion Dual-bell nozzle Laser Rayleigh scattering Oxidation mechanisms Flame speed Hydrochar HOMs Shock wave Biofuel Differential diffusion Orbitrap-HRMS Engine conditions Di-isobutylene Atmospheric chemistry N-heptane Turbulent flame FREI High-resolution mass spectrometry Cinétique Flow control Flame/vortex interaction Ethylene Flame stretch Cool flame Laminar diffusion flame Non-premixed combustion Electric field