There is an urgent need for battery materials in Europe. Li-ion batteries (LIBs) have proven to be a reliable solution, especially for the production of batteries for EVs, followed by stationary storage market and consumer electronics. By 2030, the global demand for LIBs is estimated to increase 14 times and the EU could account for 17%, and the battery production in EU is expected to rise to 300 GWh/year.
According to an estimation from the Strategic research Agenda for batteries, the annual production of LIB will require high amounts of CRMs and Europe is currently dependent on imports to produce LIBs. Moreover, the extraction process of such materials usually comes with an environmental impact. In 2020 the Strategic Research Agenda for batteries released the EU Commission’s vision for 2030, which places Europe as the first recycler of LIB raw materials.
The development of closed loops in CRMs is required to secure their supply for the EU battery market. It currently depends on imports for LIBs production, EU needs innovative technologies that will recycle not only CRMs, but also all cell components.
RHINOCEROS aims at developing, improving and demonstrating, in an industrially relevant environment, an economically and environmentally viable route for re-using, re-purposing, re-conditioning and recycling of EoL EVs and stationary batteries. RHINOCEROS will first develop a smart sorting and dismantling system enabling automated classification and dismantling of LIBs and reassembly of still working modules in new repurposed batteries for second life applications. When direct reuse of batteries is not possible, a circular recycling route of materials present in LIBs will be followed closing materials loops. This route targets the pre-treatment, refining and the recovery of recycled materials.Through qualification by industrial end-users, RHINOCEROS will demonstrate the direct production of high performances cathodic and anodic materials and other raw materials at competitive costs from battery recycling.