MEMBRIDGE : Différence entre versions
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===Partenaires=== | ===Partenaires=== | ||
− | *Université Montpellier 2 - Montpellier ([[A pour pays partenaire de projet européen::France]]) | + | *[[A pour partenaire français de projet européen::Université Montpellier 2]] - Montpellier ([[A pour pays partenaire de projet européen::France]]) |
− | *Céramiques techniques et industrielles SA - Salindres ([[A pour pays partenaire de projet européen::France]]) | + | *[[A pour partenaire français de projet européen::Céramiques techniques et industrielles SA]] - Salindres ([[A pour pays partenaire de projet européen::France]]) |
*A. V. Topchiev Institute of Petrochemical Synthesis - Russian Academy of Sciences - Moscou ([[A pour pays partenaire de projet européen::Russie]]) | *A. V. Topchiev Institute of Petrochemical Synthesis - Russian Academy of Sciences - Moscou ([[A pour pays partenaire de projet européen::Russie]]) | ||
*Scientific and Technical Center - Vladimir ([[A pour pays partenaire de projet européen::Russie]]) | *Scientific and Technical Center - Vladimir ([[A pour pays partenaire de projet européen::Russie]]) |
Version du 26 novembre 2012 à 15:10
MEMBRIDGE | |
Budget : | 684 k€ |
Subventions : | FP7-NMP (268 k€) |
Sous-programme : | Coordinated actions with Materials researchers in major world regions |
Type de contrat : | Coordination (or networking) actions |
Début : | 1er mai 2009 |
Fin : | 30 avril 2011 |
MEMBRIDGE est l'acronyme du projet européen Bridge between environment and industry designed by membrane technology, qui a pour référence sur le service CORDIS 233253[1].
Note : Les objectifs suivants sont repris de la fiche du projet sur Cordis
- Objective
Membranes are nano-/micro-porous multifunctional materials the main property of which is permselectivity regarding to different ionic and molecular species. This property results in a great number of applications in processes of aqueous and gaseous mixture separation. The small material and energy consumption and high eco-efficiency of separation by membranes determine strategic role of membrane processes as technologies making a bridge between industry and environment.
The main objective of the proposal is to make a step towards reaching an effective integration of research activities, training, equipment sharing, and thus answer the needs for a coordinated membrane science and technology R&D in Europe and Russia oriented primarily at development of eco-efficient methods in industry. This objective replies to one of most important priorities of FP7: Elaboration of concepts aimed at sustainable development, and societal innovation. This objective will be attained by rapprochement of two membrane networks: Network of Excellence NanoMemPro in Europe and Russian Membrane Network being in the way of formation.
The project foresees the organization of two meetings of 25 representatives of European institutions belonging to NanoMemPro and of the equivalent number of Russian and NIS scientists. The basis for a European-Russian Membrane Science and Innovation Technology Platform will be founded as well. As a result of the project, a well structured programme/concept of scientific collaboration and diverse actions (in the field of researches, training, equipment sharing, person mobility, technological innovation) for the next several years will be elaborated.
The proposed project should prepare grounds for further larger and amplified actions between European and Russian membrane networks following the axe of environmental protection, in the framework of FP7 and other international and regional programmes.Les partenaires du projet
Coordinateur du projet
- European Membrane House - Bruxelles (A pour pays coordinateur de projet européen::Belgique)
Partenaires
- Université Montpellier 2 - Montpellier (France)
- Céramiques techniques et industrielles SA - Salindres (France)
- A. V. Topchiev Institute of Petrochemical Synthesis - Russian Academy of Sciences - Moscou (Russie)
- Scientific and Technical Center - Vladimir (Russie)
- Membrane Technology Innovation Enterprise - Krasnodar (Russie)
- Regional Inter-Branch Centre Yugtechinform - Krasnodar (Russie)
- Membrane Technologies - Almaty (Kazakhstan)
- Dechema Gesellschaft fuer Chemische Technik une Biotechnologie EV - Francfort-sur-le-Main (Allemagne)
- Russian Technology Transfer Network - Obninsk (Russie)
- Kurlanov Institute of General and Inorganic Chemistry - Russian Academy of Sciences - Moscou (Russie)
- A. V. Shubnikov Institute of Cristallography - Russian Academy of Sciences - Moscou (Russie)
- Kuban State University - Krasnodar (Russie)
- MEGA AS - Prague (République tchèque)
- MTB Technologies SP ZOO - Varsovie (Pologne)
- Aquamarijn Micro Filtration BV - Zutphen (Pays-Bas)
Financement
- Coût total du projet : 684 054 €
- Subvention de la Commission européenne (programme FP7-NMP) : 268 000 €
Dates importantes
- Date de début : 1er mai 2009
- Date de fin : 30 avril 2011
Notes
- ↑ La fiche du projet sur CORDIS