Project Detail |
A new paradigm for primary (Li) mining in Europe
The EU is almost entirely dependent on importing rare earths and lithium (Li) for batteries needed to decarbonise the energy and mobility sectors. This is surprising considering Europe has 27 Li hard-rock (pegmatite and rare-metal granite) deposits. One explanation is the reluctance among Europeans to conduct primary (Li) mining in Europe, despite their enthusiasm about electric vehicles. The EU-funded EXCEED project will develop a new mining paradigm for zero-waste, multimetal/mineral mining. This will be combined with sustainable mineral processing to provide additional critical raw materials and industrial minerals from four lithium mines in Finland, France, Portugal and the United Kingdom. EXCEED’s long-term impact includes the replication of its solutions to the other 23 European pegmatite and rare metal granite deposits.
Europe is 100% reliant on imports of Li for the Li-ion batteries that are central to decarbonising the energy and mobility sectors. Some fraction of our needs can come from recycling the batteries already in use, but realistically, primary supply will still have to cover 90% of the Li requirement. Paradoxically, Europe hosts 27 Li hard-rock (pegmatite & Rare-Metal Granite) deposits, representing vast lithium resources (8.8–21.7 Mt Li2O). However, the identified potential remains largely untouched, which is partly due to a reluctant attitude towards primary (Li) mining in Europe. Europeans are very enthusiastic about EVs, but rather less so about the necessary mining & refining of Li-bearing ores to realise them. By upscaling and integrating results from earlier projects, EXCEED’s 15 partners develop a new mining paradigm, i.e. zero-waste, multi-metal/mineral mining. This will be combined with sustainable mineral processing to provide us with additional critical raw materials (CRMs: rare earths, Nb, Ta, W, Be) and industrial minerals (quartz, feldspar and micas), coming from 4 lithium mines (as case studies) in Finland (Keliber), Portugal (Savannah), France (Imerys) and the UK (Imerys). The project adopts a mineral-centric, integrated methodology based on an innovative predictive and forensic geometallurgy, supported by enhanced in-line characterisation tools and the development of digital twins. EXCEED develops, upscales and demonstrates cost-effective, sustainable and responsible extraction routes for recovering CRMs and industrial minerals (the latter for use as low-carbon ceramics and cements), as by-products from the 4 Li-bearing hard-rock ores. EXCEED’s long-term impact includes the replication of the EXCEED solutions to the other 23 European pegmatite and Rare-Metal Granite deposits, thus boosting domestic CRM production (up to 21.7 Mt Li2O & 1.5 Mt of other CRMs), in a way that gains public support by respecting the environment and creating local jobs. |