index - Archive ouverte HAL Access content directly

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.

latest submissions

Chargement de la page


International collaborations


Number of papers


Number of notices



Polyols Ailettes à pas décalés Biomasse Positive matrix factorization AEROSOL Méthodes de mesure Primary biogenic organic aerosol Metrology VLEP Urban air quality Thermal conductivity Biomass Aerodymanics Simulations numériques Limonene Lieux de travail Ammoniac GEOF Adsorbing materials Aerosol chemical speciation monitor 3-Hydroxy-3-methyl-2-butanone Aerosol ChArMEx Positive Matrix Factorization PMF Vortex generator Measurement methods Adsorption Industrial emissions Air - Purification Numerical simulations Volatile organic compounds Indoor air quality Atmospheric pollution Chemical Kinetics Air - Qualité - Normes Polymères conducteurs Monoterpenes Acide arsénique Aethalometer Optimization Absolute kinetic method SOURCE APPORTIONMENT Kinetics Numerical simulation EMEP VOC Occupational Inflammation Mineral dust SOA Valeurs limites Multifunctional heat exchangers/reactors Photocatalysis Aerosols PMF Acid Rain Combustion Volcanic dust Cinétique chimique Advection chaotique Milieu professionnel Limit values Sources Agents chimiques AIR POLLUTION Echangeurs de chaleur Coherent structures CFD Turbulence Molecular physics A-pinene Megacity High-conductivity materials ACSM Ozone 4'-méthylènebis2-chloroaniline Adiabatic boundary conditions Composés organiques volatils Modélisation Métrologie Workplaces Air - Quality - Standards Source apportionment PM10 Chaotic advection Air treatment Polyaniline OEL Sulfur dioxide Tracers Heat exchangers Acidifying Potential Optimisation Nucleation Simulation numérique Heat exchanger Aerosol yield Heat transfer enhancement Qualité de l'air intérieur

Breakdown by area

Chargement de la page

Breakdown by document type

Open Access

33 %