Description du projet
Une nouvelle perspective pour le recyclage du photovoltaïque
Les déchets d’équipements électriques et électroniques (DEEE) tels que les réfrigérateurs et les téléphones portables constituent l’un des flux de déchets qui connaît la croissance la plus rapide. On observe en Europe une augmentation significative des DEEE liés aux technologies récentes telles que les dispositifs photovoltaïques (PV). Ces produits sont conçus comme des sandwichs complexes, ce qui complique considérablement la récupération des matières premières critiques et précieuses encapsulées dans les couches. Le projet PHOTORAMA, financé par l’UE, élaborera une chaîne de valeur circulaire rentable et durable qui mènera à une industrie photovoltaïque neutre en carbone. Plus précisément, il développera et démontrera les perspectives industrielles de récupération et de recyclage de matériaux et composants spécifiques des panneaux photovoltaïques en fin de vie.
Objectif
Since the last decades, Waste Electrical and Electronic Equipment (WEEE) have been drastically increasing in Europe, particularly for recent technologies such as Photovoltaic (PV) devices. These products are designed as complex sandwiches, which make the recovery of the critical (Si, In, Ga) and precious (Ag) raw materials encapsulated in the layers extremely challenging.
The overall objective of PHOTORAMA is to draw up a profitable and sustainable circular value chain that will lead to a carbon neutral PV industry. PHOTORAMA will develop and demonstrate the industrial prospective of recycling solutions to recover and recycle all the materials ‘components from End-of-life PV panels. A complementary consortium of 13 European companies and research institutes has built the framework of PHOTORAMA as follow:
(1) the development of innovative processes and technologies from TRL4-5 to TRL7 to establish a sound recycling scheme to increase significantly resource efficiency with decisive cost-cutting solutions. The implementation of automated disassembly and sandwich opening as layer separation (MONDRAGON, DFD, CEA) enabling high-recovery (> 95%) of secondary raw materials: Ag, Si (SINTEF, CEA, IDENER) and In, Ga (LUXCHEMTECH) from EoL PV panels (crystalline silicon, thin films),
(2) the full-circularity approach emphasised from collection (SOREN) to marketable new products from Si, In, Ga, Ag (RHP), glass (MALTHA) mainly for PV manufacturing (EGP),
(3) the demonstration of the business viability and attractiveness of its technological solutions (BIFA, ENEA) as one of the most competitive perspective for PV recycling.
PHOTORAMA will strengthen this ambitious model with environmental impacts assessments and a strategic dissemination and exploitation plan supported by a strong effort for raising societal awareness (ZSI). The implementation of PHOTORAMA recycling scheme would unlock already more than 100,000 tons of valuable secondary raw materials by 2030.
Champ scientifique
Mots‑clés
Programme(s)
Appel à propositions
H2020-LOW-CARBON-CIRCULAR-INDUSTRIES-2020
Voir d’autres projets de cet appelSous appel
H2020-LCCI-2020-EASME-twostage
Régime de financement
IA - Innovation actionCoordinateur
75015 PARIS 15
France