Sustainable processing of Europe's low-grade sulphidic and lateritic nickel/cobalt ores and tailings into battery-grade metals

Climate, Energy & MobilityHORIZON-RIAID: 101058124
EC Contribution
€60,192
Consortium Size
9 orgs
Start Year
2022
Summary

The cobalt (Co) and nickel (Ni) demand is expected to be about 20 times higher in 2040 than in 2020. Given that Europe plays only a minor role in the global Ni/Co supply chains, which are concentrated in the DRC, Indonesia and China, we face a serious problem in securing a reliable, affordable and sustainable supply of battery-grade Ni/Co, vital for Europe’s aims to be climate-neutral by 2050. In view of a “domestic and foreign sourcing” procurement model, ENICON exploits the potential of (low-grade) Ni/Co resources within Europe – i.e. sulphidic Ni/Co ores and derived Ni/Co-bearing pyrite and silicate tailings, and limonitic/saprolitic laterite Ni(/Co) ores – while improving and developing the Ni/Co-refining capacity that can process imported ores, concentrates and intermediates. ENICON comprises both major improvements to existing Ni/Co metallurgical unit operations in Europe as well as the development of a new HCl-based route for both Ni/Co sulphide concentrates and laterites. ENICON’s HCl-route dispenses with the old-school hydro-approach of continuously precipitating and redissolving metals that requires lots of chemicals and creates problematic waste streams. The HCl-based route can be extended to the downstream processing of FeNi (Class-II Ni) obtained from laterites; (2) Mixed (Ni/Co) Sulphide/Hydroxide Precipitate (MSP/MHP) from the bioleaching of Co-rich pyrite tailings; and Ni/Co-containing silicate tailings. ENICON targets a “forensic geometallurgy” protocol, making it possible to identify and mitigate the mineralogical and textural reasons for processing losses along existing and new flowsheets. To make the transition to (near) zero-waste processing and to further reduce CO2-footprints, ENICON develops enhanced mineral-matrix valorisation processes. The outputs from ENICON’s group of European Ni/Co mining, processing and refining companies will all be benchmarked in terms of positive environmental and techno-economic impacts against current methods.

Consortium (9)

Project Results (19)

Source: CORDIS, the EU research results database.

Publications (14)
Akermanitic clinker unlocks the potential of Mg-silicates for carbonation cured construction materials
Frontiers in Materials· 2025DOI
Peys, Arne; Martins, Natalia Pires; Prado Araujo, Fernando; Nielsen, Peter
Engineering the phase composition of akermanitic carbonatable clinkers to achieve high CO2 reactivity
· 2025DOI
Peys, Arne; Pires Martins, Natalia
High-temperature slag engineering in pursuit of effective mineral carbonation of pyroxene-rich ferronickel slag
Journal of CO2 Utilization· 2025DOI
Arne Peys, Natalia Pires Martins, Fernando Prado Araujo, Konstantinos Komnitsas, Peter Nielsen
Mineral carbonation of a ferronickel slag-based clinker
· 2025DOI
Pires Martins, Natalia; Peys, Arne
Cradle to gate life-cycle assessment of battery grade nickel sulphate production through high-pressure acid leaching
Science of The Total Environment· 2024DOI
Georgios Bartzas, Konstantinos Komnitsas
Electrochemical cobalt oxidation in chloride media
Minerals Engineering· 2024DOI
Iryna Makarava, Jere Vänskä, Agnieszka Kramek, Jacek Ryl, Benjamin P. Wilson, Kirsi Yliniemi, Mari Lundström
Factors affecting the properties of slag-based alkali activated materials
· 2024DOI
Komnitsas, K., Karmali,V., Vathi, D., Kaklamanos, E
Molecular thermodynamic model for solvent extraction of mineral acids by tri-n-butyl phosphate (TBP)
Separation and Purification Technology· 2024DOI
Rayco Lommelen, Koen Binnemans
Predictive thermodynamic model for solvent extraction of Iron(III) by tri-n-butyl phosphate (TBP) from chloride media
Separation and Purification Technology· 2024DOI
Rayco Lommelen, Brecht Dewulf, Jakob Bussé, Koen Binnemans
Properties of Alkali Activated Materials produced from Metallurgical Slag and other Additives,
· 2024
Komnitsas, K., Karmali, V., Petrakis, E., Kritikaki, A., and O. Pantelaki, O.
Synthesis and Morphology of Slag-based Alkali-Activated Materials
Mining, Metallurgy & Exploration· 2024DOI
Konstantinos Komnitsas; Arne Peys; Stylianos Tampouris; Vasiliki Karmali; Georgios Bartzas; Dimitra Vathi; Anna Kritikaki
Energy transition metals: Future demand and low carbon processing technologies
· 2023DOI
Komnitsas, K., Lazos, I., and Eerola, T.
Forensic geometallurgy of Ni-Co laterites: Sustainable processing of Europe's low-grade ores and tailings into battery-grade metals
· 2023
Prado Araujo, Fernando; Muchez, Philippe; Andersen, Jens; Magalhães, Nívea; Crane, Richard; Hughes, Hannah
Objecticves and ambition towards climate neutrality
· 2023
Doitsidis, L., Kritikaki, A., Komnitsas, K.
Other Results (1)
Periodic Reporting for period 2 - ENICON (Sustainable processing of Europe's low-grade sulphidic and lateritic nickel/cobalt ores and tailings into battery-grade metals)
Deliverables (4)