Objectives
Develop a trusted and interoperable Digital Battery Passport (DBP) framework and platform
Ensure value chain track and traceability throughout the Digital Battery Passport (DBP) lifecycle
Employ advanced analytical and AI techniques to estimate battery performance and safety indicators
Develop circularity indicators by accounting 4R (Reduce, Repair, Reuse, and Recycle) aspects
Develop harmonised Environmental, Social, Governance and Economic (ESGE) indicators
Develop business model to promote circular economy in battery value chain exploiting Digital Battery Passport (DBP)
Demonstrate and validate the Digital Battery Passport (DBP) concept
Impacts
- Development and implementation of Digital Battery Passport (DBP) through Distributed Ledger Technology (DLT)
- Develop transparent calculation methods for battery indicators
- Encourage new business models in the different parts of the battery value chains and circular data extraction
- Improvement of battery transportation and workforce safety
- Tested solution throughout the entire battery value chain
- Promote sustainability and circularity through the adoption of 4R strategies
- Contribution to the boost of the use of recycled and reusable material
- Increase the competitiveness of the European battery industry across the value chain
- Reduce strategic dependencies for Critical Raw Materials (CRM) by promoting resource efficiency
Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or CINEA. Neither the European Union nor the granting authority can be held responsible for them.
This project has received funding from the Horizon Europe Framework Programme (HORIZON) Research and Innovation Actions under grant agreement No 101157200.