Romanian Team |
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“Politehnica” University of Timisoara, a university of advanced research and education, is today one of the traditional Romanian schools and is recognized nationally and internationally both through the work of generations of teachers and the outstanding work of prestigious academics.
According to tradition, the mission of “Politehnica” University of Timisoara resides in meeting the competence requirements of the societal environment by providing superior training at undergraduate, graduate, and postgraduate levels. Bearing fundamental values, the university mission reflects at the same time concern for the future of society, by tracing its development at local, regional, national, and international levels.
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Name | First name | Role and Contribution to the project |
IONEL | Ioana | Team coordination |
DUNGAN | Luisa Izabela | Project management, coordination of model validation related activities |
MEGAN | Silviu | Administrative activities, liaison with local environmental authorities |
LONTIŞ | Nicolae | Air quality monitoring, on-site measurements |
IRIMESCU | Adrian | Modelling and measurements of urban traffic related emissions |
TALIANU | Camelia | Numerical modelling for LIDAR applications Data processing |
VETREŞ | Ion | Measurements using LIDAR, data analysis |
NISULESCU | Catalin | Measurements using LIDAR |
NICOLAE | Doina | Numerical modelling for LIDAR applications Data processing |
CALUSERU | Lavinia Alina | Data aquisition responsable |
CĂLINOIU | Delia | Meteorological measurements |
French Team |
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Le LMFA est une Unité Mixte de Recherche rattachée au CNRS, à l’Ecole Centrale de Lyon, à l’Université Claude Bernard Lyon 1 et à l’INSA de Lyon. Il est membre de l'Institut Carnot Ingénierie@Lyon. L’activité du Laboratoire est organisée autour de quatre groupes de recherche : Centre Acoustique, Fluides complexes et Transferts, Turbomachines, Turbulence et Stabilité. Les recherches portent sur la physique et la modélisation de la turbulence, les instabilités hydrodynamiques, les écoulements diphasiques, la mécanique des fluides environnementale, l’aérodynamique interne, les phénomènes thermiques couplés, l’aéroacoustique, la propagation acoustique, les méthodes de résolution des équations de Navier-Stokes, le contrôle actif ou passif des écoulements, la microfluidique. Ces recherches donnent lieu à de nombreuses collaborations avec les acteurs industriels ou institutionnels des secteurs des Transports, de l’Environnement et l’Energie. L’objectif est d’apporter aux concepteurs les outils d’analyse et de modélisation leur permettant d’optimiser leurs produits ou leurs procédés et d’en réduire l’impact énergétique et environnemental. |
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SOULHAC | Lionel | French team coordination |
Coordination of the numerical developments work package in Task 2 | ||
SALIZZONI | Pietro | Coordination of the wind tunnel investigation work package in Task 2 |
MARRO | Massimo | Numerical developments (Task 2, WP2) |
Numtech |
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NUMTECH (http://www.numtech.fr) was created at the beginning of the 21st Century by two researchers in Atmospheric Physics and in Applied Mathematics. NUMTECH carries out large-scale missions ranging from research in the atmospheric dispersion of emissions linked to human activities, through to producing or forecasting air quality figures or providing expert assessments of meteorological events. Top-level expertise in atmospheric dispersion, meteorology and the development of urban air quality models, together with its mastery of mathematics and physics tools, place NUMTECH in a prime position to offer a broad panel of studies tailored to the diverse issues facing managers of industrial facilities and institutional administrations. These last years, one of the main business of NUMTECH is the development and commercialisation of operational systems in order to manage or prevent the air pollution around industrial sites (PLUM’AIR system) or in a city (URBAN’AIR system). Such systems allow to follow in near real-time the air-quality and to forecast it in order to apply strategies to reduce peaks or chronic pollution. Additionally, such systems for industries can be used in an accidental mode in order to manage an accidental release. From 2005 the PLUM’AIR system is used by TOTAL company on its refineries mainly for management of SO2 peaks, and it is used more recently by Suez Environnement and Saur Companies for odour management around their sites. The Urban’air system is largely deployed and used in France (Aix-en-Provence, Clermont-Ferrand, Orleans, Paris, Strasbourg, …) by regional air-quality agencies, but it becomes also to be used at the international (Dubai, Casablanca). |
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BROCHETON | Fabien | Technical Director - NUMTECH coordination of the project - Photochemistry and atmospheric dispersion modelling |
PESIN | Céline | Project Manager - Urban modelling, Emission inventory, and analysis of the comparison between model and measurement - atmospheric dispersion modelling |
ROLLAND | Marie-Noëlle | Modelling Engineer - Urban modelling, and analysis of the comparison between model and measurement - atmospheric dispersion modelling |
POULET | David | R&D engineer - Support for urban modelling for emission inventor, and for statistical analysis between measurement and model - atmospheric dispersion modelling |
CHABANON | Benjamin | Computer engineer - Support to simulation, and transfer of the modelling application to Romania - atmospheric dispersion modelling |