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Welcome to the Energy Environment CERI
of IMT Nord Europe scientific publications portal

  • The Centre for Education, Research and Innovation in Energy Environment (CERI EE) conducts academic and technological research at the crossroads of ecological and energy transitions. It focuses on the understanding and modelling of transfer phenomena, whether pollution or heat, from the microscopic scale to the continental scale. The work of the teams consists of the development of experimental methods, the analysis of processes and the design of prototypes.

    Fields of intervention

    Two scientific fields are covered by CERI EE:

    • Atmospheric Sciences to assess the impact of human activities on outdoor and indoor atmospheres and its impact on air quality, climate change and environmental health;
    • Energy efficiency associated with a streamlined use of raw materials and fossil fuels, paving the way for innovations in multi-sectoral applications for optimised, more efficient and sustainable thermofluidic systems and components.

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Turbulence Monoterpenes Air des lieux de travail PMF Horseshoe vortex Heat transfer enhancement Polyaniline Infrared thermography Molecular physics Multifunctional heat exchangers/reactors Expert assessment Kinetics Limit values Aerosols Polyols CFD Megacity Expertise Workplace air High-conductivity materials PIV Aerosol Optimization OEL Cinétique chimique Athens Volatile organic compounds Mineral dust Experiments Computational fluid dynamics Atmospheric pollution Tracers Méthodes de mesure Workplaces Optimisation Métrologie SOURCE APPORTIONMENT DFT method Transient method Echangeurs de chaleur EMEP Urban air quality Vortex generator Horseshoe vortex system Modélisation Coherent structures Milieu professionnel Biomasse Simulations numériques Photocatalysis SOA Positive Matrix Factorization PMF Source apportionment Chemical Kinetics Limonene Industrial emissions Inflammation LES Lieux de travail Sources Metrology Composés organiques volatils Primary biogenic organic aerosol Indoor air Occupational Simulation numérique Particle image velocimetry Local heat transfer coefficient VLEP Air treatment Valeurs limites Numerical simulations Ozonolysis Heat exchangers PM10 Emission sources Positive matrix factorization Qualité de l'air intérieur Biomass Offset strip fins Measurement methods Ozone Polymères conducteurs Ammoniac URANS Indoor air quality GEOF VOC Thermal conductivity Nucleation Heat exchanger Chaotic advection Combustion Entropy production Sulfur dioxide Pollution atmosphérique Volcanic dust ChArMEx Numerical simulation

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