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Abstract
Energy transition from fossil- to a material-intensive energy system is highly dependent on the availability of Co and Ni. This has increased interest towards non-traditional raw material streams such as mining waste. In this work, leaching experiments were conducted on historical flotation tailings with low concentrations of Co (0.081 wt%), Ni (0.055 wt%), Cu (0.15 wt%) and Zn (0.17 wt%). This low grade may challenge the feasibility of industrial operation, and therefore water, and commonly used mineral acids, were investigated as lixiviants for the process. The electrochemical leaching behaviour was studied using various oxidants (O2, Cu2+, Fe3+ and H2O2). The results showed that a substantial amount of Co (21 %) and Ni (37 %) could be leached using water, with no additional oxidants or pH adjustment (80 °C, 5 min). In water leaching, the system stabilized inherently to pH=3.7 and the redox potential to Eh < 0.3 V vs Ag/AgCl. This indicates that during the 32–67 years of piling, the weathering conditions had caused natural oxidation of Co– and Ni-bearing minerals such as pyrrhotite and pentlandite. The leaching yields of Co and Ni were slightly increased (5 % units for Co, 10 % units for Ni) by introducing additional acid (1 M) into the leaching system. Further addition of oxidants did not increase the leaching yield of Co, suggesting that the dissolution of Co-bearing minerals followed the chemical leaching mechanism. In contrast, some of the Ni leaching was found to be electrochemical in nature, as extraction increased up to 63 % with the use of strong oxidative (cupric chloride) conditions – most likely due to partial chalcopyrite or pentlandite leaching. Undissolved Co and Ni remained in refractory minerals such as chalcopyrite or pyrite. In addition to Co and Ni, 52 % of Zn and 37 % of Cu were also found to be soluble under acidic conditions. When considering the use of historical flotation tailings as a feed stream in hydrometallurgical processing, direct water leaching may provide an attractive and robust leaching strategy, with spontaneous inherent pH adjustment. An increase in solid-to-liquid ratio or solution circulation (higher acidity) could increase percentual Co and Ni yield and enable enrichment of the target metals in the pregnant leach solution (PLS). If flotation is considered for concentration of Co– and Ni-bearing minerals, water leaching prior to flotation is recommended, to improve both the flotation performance and overall flotation and metal recovery.
Original language | English |
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Article number | 108967 |
Number of pages | 9 |
Journal | Minerals Engineering |
Volume | 217 |
Early online date | 5 Sept 2024 |
DOIs | |
Publication status | Published - Oct 2024 |
MoE publication type | A1 Journal article-refereed |
Keywords
- Atmospheric leaching
- Cobalt
- Historical tailings
- Nickel
- Water leaching
- Weathering
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BATCircle2: Finland-based circular ecosystem of battery metals
Lundström, M. (Principal investigator), Karppinen, A. (Project Member), Revitzer, H. (Project Member), Sahlman, M. (Project Member), Lappalainen, H. (Project Member), Rinne, M. (Project Member), Chernyaev, A. (Project Member), Wang, Z. (Project Member), Partinen, J. (Project Member), Alajoki, J. (Project Member), Halli, P. (Project Member), Zou, Y. (Project Member), Wilson, B. (Project Member), Vänskä, J. (Project Member), Palomäki, H. (Project Member), Sibarani, D. (Project Member), Klemettinen, L. (Project Member), Liljanko, H. (Project Member) & Tran, H. (Project Member)
01/05/2021 → 31/08/2024
Project: Business Finland: Strategic centres for science, technology and innovation (SHOK)
Equipment
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Raw Materials Research Infrastructure
Karppinen, M. (Manager)
School of Chemical EngineeringFacility/equipment: Facility