Enviado por Hakim Ferria el Sáb, 12/16/2023 - 16:34
Tags:
CO-EXTRUSION
FFOM Fraction Fermentescible des Ordures Ménagères
FILMS BIOPOLYMERES
METHANISATION
Amélioration de la DEgradation en MéthAnisation et de propriétés des films BIOdégradables
Coordinateur:
LEYGATECH
Responsable INSA:
Pr. Abderrahim MAAZOUZ
Le projet ambitionne de développer des films biopolymères pour la sacherie, notamment la collecte de la FFOM (Fraction Fermentescible des Ordures Ménagères), et des emballages alimentaires, et par extension, des films de paillage, avec des propriétés de fin de vie conformes à une valorisation organique aérobie (compostage industriel, à domicile, ou en sol) et également anaérobie (méthanisation).
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Partenaires:
BARBIER GROUP
GBCC Green Business and Consulting Company
BIOBASIC ENVIRONNEMENT
Financement:
FRANCE 2030
Dates projet:
De 2022-10-01 00:00:00 hasta 2026-10-01 00:00:00
Montant global du projet:
291600
Contact:
abderrahim.maazouz@insa-lyon.fr
Chapo:
Elaboration, formulation et production de micro /nano films multicouches en biopolymères biodégradables par un procédé innovant de coextrusion /application à l’emballage alimentaire.
Textile valorization: Recycling, recyclability and reuse
Coordinateur:
INSA LYON - IMP
Responsable INSA:
Jannick DUCHET
Textile materials have two essential characteristics: one is technical, resulting from the choice of fibers and their assembly into fabrics, the second is aesthetic, linked to the material and its finishing. The value of a textile object is associated with both technical and aesthetics, it is linked to actual wear and tear completed with the attachment of the consumer. The end of life of these textiles can occur because they are worn and damaged or because they are not liked anymore or considered outdated.
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Partenaires:
ENSAIT
UNIVERSITE DE LILLE
ENSAD
Financement:
PIA ANR
Dates projet:
De 2023-02-01 00:00:00 hasta 2027-01-01 00:00:00
Montant global du projet:
1085281
Contact:
https://premc.org/pepr-recyclage/projets/ et fil Twitter du PEPR: PEPR_SNA_Recycl
Chapo:
How to recycle the clothes of yesterday and Design the clothes of tomorrow ?
Approche globale pour la revalorisation en circuit court de plastiques usagés par fabrication additive
Coordinateur:
UNIVERSITE DE LORRAINE
Responsable INSA:
Claire BARRES
The GreeenLocal3D project focuses on models and experiments to facilitate the short circuit recycling of post-consumer plastic waste to be recovered and enhanced by additive manufacturing (AM) processes. In a new "distributed recycling" paradigm, this process must be accomplished by affordable and flexible technologies that cover a limited geographical area to form the basic unit of a "smart recycling network". More specifically, the objective is to study the possibility through AM to revalorize previously unsorted and/or unrecycled types of plastics.
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Partenaires:
CNRS
CENTRALESUPELEC
UNIVERSITE DE LORRAINE
Financement:
ANR
Dates projet:
De 2022-10-01 00:00:00 hasta 2026-09-01 00:00:00
Montant global du projet:
476000
Contact:
claire.barres@insa-lyon.fr
Chapo:
The main goal is to develop a new distributed recycling solution to reuse locally, by additive manufacturing, types of post-consumer thermoplastic wastes that were previously unsorted or unrecycled
Enviado por Hakim Ferria el Mar, 06/20/2023 - 11:03
Tags:
POLYMERISATION
PROCEDE BATCH
Advanced Batch Control for Industry
Coordinateur:
OPTIMISTIK
Responsable INSA:
Etienne FLEURY
L’ambition du projet Advanced Batch Control for Industry (ABC4I) est de développer une chaîne numérique complète, de l’analyse en ligne sur les procédés à leur pilotage en passant par les algorithmes de prédiction et d’optimisation.
Cette chaîne numérique sera expérimentée sur deux procédés industriels : un procédé de synthèse de la vitamine A et un procédé de polymérisation des silicones.
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Partenaires:
AXEL'ONE
ELKEM
PROBAYES
ADISSEO
Financement:
FRANCE 2030
Dates projet:
De 2022-09-01 00:00:00 hasta 2025-09-01 00:00:00
Montant global du projet:
4700000
Contact:
etienne.fleury@insa-lyon.fr
Chapo:
Pilotage et optimisation en temps réel des procédés industriels batch : une approche novatrice grâce aux avancées de l’analyse en ligne, du numérique et de l’IA.
Recycling, recyclability and reuse of polymer/plastics
Coordinateur:
INSA LYON - IMP
Responsable INSA:
Khalid LAMNAWAR
Several issues have been identified concerning the recycling of plastics during the analysis of the state of the art. Firstly, the presence of contaminants and the disassembly of complex structures appear as major issue and limit the development of mechanical recycling of plastics. On the other hand, tertiary recycling or chemical recycling is in its infancy and fundamental knowledge in this field is still needed to allow its spreading at different scales.
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Partenaires:
CEA
CNRS
IFPEN
UCBL
UNIVERSITE DE LORRAINE
UNIVERSITE LE MANS
INRAE
CENTRALE LILLE
IMT NORD EUROPE
URCA
UJM
Financement:
PIA ANR
Dates projet:
De 2023-02-01 00:00:00 hasta 2027-01-01 00:00:00
Montant global du projet:
3934132
Contact:
khalid.lamnawar@insa-lyon.fr
Chapo:
In the context of the circular economy, it is crucial to develop new concepts to improve the recycling of post-consumer polymeric materials as well as the incorporation of recycled materials into goods and products in order to meet a major societal challenge/issue: resource conservation.
The COCHISE project consists in designing, modeling and characterizing new connectors for very high speed Ethernet applications (> 10 Gbits/s). This work is part of the problematic of the transfer and processing of ever larger computer data, known as "big-data". It requires infrastructures and equipments always more powerful. The end equipment (computers, servers, routers) have been the subject of extraordinary improvements in recent decades (speed, memory, etc.).
eco-design of a new generation of anti-insect nets in Biosourced, Biodegradable Polymers and enriched with Bio-insect repellents
Coordinateur:
INSA LYON
Responsable INSA:
Sébastien LIVI
Agricultural losses due to insect pests amount to approximately 250 billion euros worldwide [l]. To date, crop protection relies almost exclusively on chemical treatments responsible for significant environmental damage, the emergence of resistance in certain insect pests [2] and residues that can potentially prove dangerous to human health [3]. Societal and health concerns create the need to find new ecological solutions.
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Project aims to create a range of recycled plastic materials (RPM) from waste electrical and electronic equipment (WEEE)
Coordinateur:
INSA LYON
Responsable INSA:
Khalid LAMNAWAR
The integration of more and more recycled plastic materials (RPM) is a clearly identified objective by regional, national and European circular economy roadmaps. In addition, the anti-waste law (AGEC), which bans single-use plastics, aims for 100% recycling of used plastics by 2025.
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Modulation of surface properties of cellulose substrates by adsorption of Passerini-modified polysaccharide derivatives: Towards advanced paper packaging
Coordinateur:
INSA LYON
Responsable INSA:
Aurélia CHARLOT
The Moderato project aims at designing novel families of chemically modified polysaccharides, to be used as bio-based functional coatings in order to impart paper materials with barrier properties, which will be enhanced and maintained upon changes of relative humidity and temperature, for end-uses in the flexible food packaging field. The novelty is to exploit the appealing Passerini-three component reaction (P-3CR), and to apply it to both polysaccharide chains (carboxymethyl cellulose, alginic acid) and cellulose particles (oxidized cellulose microfibr
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
AI AND HIGHTHROUGH METHODS ASSISTED DESIGN OF POLYMERS
Coordinateur:
CNRS
Responsable INSA:
Jean-François GERARD
With a worldwide production of nearly 380 million tons per year, polymer materials play a central role in our modern society. They are used in the manufacture of innumerable daily-life products, or as more sophisticated compounds in medicine, diagnostics, and fine chemistry. However, economical and new societal constraints require a more rational design and alternative synthesis, formulation and processing methods for polymer manufacturing to meet the need for greater sustainability, more virtuous end-of-life management, while maintaining optimal performances in application.
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Partenaires:
INSA LYON - IMP
UNIVERSITE DE BORDEAUX
INRAE
Financement:
PIA ANR
Dates projet:
De 2022-10-01 00:00:00 hasta 2026-10-01 00:00:00
Montant global du projet:
2143000
Contact:
jean-francois.gerard@insa-lyon.fr
Chapo:
Discover innovative polymer materials in a different way! Combining accelerated generation and characterisation with artificial intelligence