HORIZON-CL5-2022-D2-01-10: Streamlined collection and reversed logistics, fully automated, safe and cost-efficient sorting, dismantling and second use before recycling (Batteries Partnership)

Keywords: anode | anode material | Anode materials | automate | automated sorting | automatisation | automatization | batteries | battery | battery cell | battery cells | battery components | best practices | burning process | business model | Business models | cathode | cathode and anode materials | cathode material | Cathode materials | circular business models | Circular Economy Action Plan | collection | components | components of batteries | cost | cost reduction | cost-efficient | cut-off | cut-off criteria | data | database | development of technologies | development of technology | diagnosis | discharge | dismantling | dismantling process | dismantling processes | diversified waste streams | e-mobility | efficiency | efficient | efficient recycling chain | End of Life | energy recovery | environmental impact | EOL | EoL batteries | EoL battery | EV | EV batteries | EV battery | fire | good practices | health and safety | inert atmosphere | labelling | labelling system | labelling systems | LEL | Li-chemistries | Limiting Oxygen Index | load monitoring systems | logistics | LOI | Lower Explosive Limits | Machine learning | management chain | manual work | monitoring system | monitoring systems | novel approach | novel approaches | novel safe dismantling processes | Primary raw materials | processes | products | protocol | protocols | raw-materials | recovery | recycling | recycling chain | recycling industry | recycling value chain | reducing costs | refurbishing | risk of fire | safety procedure | safety procedures | second life | second life application | second life of batteries | second use | socio-economic | socio-economic viability | SoH | SoH diagnostic | SoH diagnostic equipment | sorting | standardised | standardized | standardized battery labelling system | standardized common diagnostics | standardized common diagnostics protocols | standardized diagnostics | stationary application | stationary applications | stationary batteries | storage | sustainability | technologies | technology | thermal runaway | Towards a competitive European industrial battery value chain for stationary applications and e-mobility | transport | transportation | TRL 5 | TRL 6 | TRL 7 | upscaleable | upscaleable technique | upscaleable techniques | used batteries | waste | waste streams | waste-prevention
Year: 2022
Type of action: RIA
Expected EU contribution per project: 5M€
Deadline: 6/9/2022