Flexible, Safe and efficient REcycling of Li-ion batterieS for a comPetitive, circular, and sustainable European battery manufaCTuring industry

Climate, Energy & MobilityHORIZON-RIAID: 101069865
EC Contribution
€89,069
Consortium Size
20 orgs
Start Year
2022
Summary

In the context of increasing global battery use, developing sustainable, safe and efficient processes is a tangible issue to further enhance circular economy and strategic autonomy of the European Li-ion batteries value chain, in line with the battery partnership’s objectives launched under Horizon Europe.RESPECT main objective is to develop a global process encompassing a process-chain flexible enough to treat all kind of batteries in closed loop, considering the variability of Li-ion batteries chemistries (NMC, LFP, NCA, LMO) , applications (EV and ESS) and states (aged, damaged, EoL, production scraps) up to date not covered by any process on the State of the Art. RESPECT addresses two recycling routes: full hydrometallurgy and direct recycling and an improved Life Cycle Assessment of each recycling segment to lower emissions and reduce secondary pollution, safety and health risks. RESPECT will aim to design and validate the recycling processes up to pilot scale to recovering the highest amount of resources, including CRMs and active materials present in the batteries to closing the loop by their reuse in cathode and anode materials for new batteries. Socio-economic, as well as sustainability aspects will be covered throughout the project. To ensure a successful project implementation, knowledge sharing on Li-ion battery green recycling processes will be fostered, based on the engagement with relevant international stakeholders and experts through the advisory board.Based on a solid and interdisciplinary consortium of partners covering the whole value chain, RESPECT seeks high recovery rates (for Li, Mn, Co, Ni or graphite) with low environmental impact and strong energy savings, in accordance with the European Green Deal and the proposed Battery Regulation.

Consortium (20)

Project Results (10)

Source: CORDIS, the EU research results database.

Publications (3)
Leaching of lithium-ion battery materials in sulfate and chloride media for hydrometallurgical recycling
Aalto University Doctoral Theses· 2025
Jere Partinen
Investigating battery black mass leaching performance as a function of process parameters by combining leaching experiments and regression modeling
Minerals Engineering· 2024DOI
Jere Partinen, Petteri Halli, Anna Varonen, Benjamin P. Wilson, Mari Lundström
Production of High Purity MnSO <sub>4</sub> ·H <sub>2</sub> O from Real NMC111 Lithium-Ion Batteries Leachate Using Solvent Extraction and Evaporative Crystallization
Solvent Extraction and Ion Exchange· 2024DOI
Andrea Locati, Maja Mikulić, Léa M.J. Rouquette, Burçak Ebin, Martina Petranikova
Deliverables (6)
Other Results (1)
Periodic Reporting for period 2 - RESPECT (Flexible, Safe and efficient REcycling of Li-ion batterieS for a comPetitive, circular, and sustainable European battery manufaCTuring industry)