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Financement de l’UE (4 983 170 €) : Pour une chaîne de valeur durable et européenne de matériaux à base de PHA pour les produits de consommation à haut volume Hor14/05/2020 Programme de recherche et d'innovation de l'UE « Horizon »
Vue d’ensemble
Texte
Pour une chaîne de valeur durable et européenne de matériaux à base de PHA pour les produits de consommation à haut volume
Plastic is one of the preferred materials for manufacturing high volume consumer products and more particularly packaging thanks to its physical, mechanical, thermal or barrier properties. However, existing global plastic industry is mainly a petrochemical-based industry, bringing bad environmental footprint. Polyhydroxyalkanoates (PHAs) are a group of biopolymers that are now widely recognized as attractive substitutes to fossil fuel derived plastics in a wide range of applications. Unfortunately, no sustainable value chain exists in Europe, and production schemes developed elsewhere in the world appear highly questionable from an environmental and ethical standpoint. The NENU2PHAR project aims at bridging this crucial gap in the EU industry, within an inclusive approach that will address the whole PHA-based plastic value chain, targeting high volume consumer products. The NENU2PHAR project gathers 17 partners (5 large industrials, 6 SMEs, 5 RTOs and 1 cluster), leaders in the different fields of research, from biomass development to formulation of biopolymer up to plastic processes. First, bio-source will be tackled by developing and optimised production of PHA biopolymer thanks to the optimisation of carbon feedstock from micro-algae biomass and selection of bacteria strains. Then, innovative polymer processing options will generate different structures with various bulk-surface properties, and various end of life properties. Market uptake of this new PHA will be supported by a competitive cost (5/kg for PHA compounds), high purity product and processes optimised for PHA bioplastic to tackle functional properties of high volume consumer product better than fossil-based counterparts. 8 PHA-based products will be developed and benchmarked to their fossil-based counterparts. Full validation of the end of life scenarios and environmental footprint will be studied based on biodegradability, compostability or recyclability of the bioplastics formulated.
| BEL | 0,00 € |
| Bioeconomy for Change | 275 416 € |
| BIO-MI d.o.o. | 400 775 € |
| Biotrend-Inovacao e Engenharia em Biotecnologia SA | 314 301 € |
| Celabor SCRL | 583 172 € |
| Centre Scientifique et Technique de L Industrie Textile Belge | 420 325 € |
| Centre Technique Industriel de la Plasturgie et des Composites | 693 410 € |
| Commissariat a L Energie Atomique et aux Energies Alternatives | 651 213 € |
| Danone Global Research & Innovation Center | 0,00 € |
| Elixance Masterbatches | 144 840 € |
| Elixance Polymers | 244 229 € |
| IFG Exelto | 0,00 € |
| Instituto Tecnologico del Embalaje, Transporte y Logistica | 419 088 € |
| Kaj Zoo | 0,00 € |
| Lomartov SL | 239 850 € |
| Sofradim Production Sasu | 0,00 € |
| Universite de Bretagne SUD | 387 451 € |
| Zero Emissions Engineering B.V. | 209 100 € |
https://cordis.europa.eu/project/id/887474
Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel.