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Abstract
Purpose: The soaring demand for cobalt for lithium-ion batteries has increased interest in the utilization of non-conventional cobalt sources. Such raw materials include complex ores containing minerals such as cobaltite and skutterudite, which, while rare, occur around the world, including in Finland, Canada, and the USA. The goal of this study was to evaluate the cradle-to-gate impacts of cobalt sulfate recovery from unutilized cobalt- and gold-bearing ores with the use of process simulation. Methods: A literature analysis was conducted to establish the state-of-the-art processing methods for complex cobalt ores containing significant amounts of gold. The drafted process was simulated using HSC Sim software to obtain a mass and energy balance, which was compiled into a life cycle inventory (LCI). The environmental impact categories (global warming, acidification, eutrophication, ozone depletion, photochemical smog creation, water use) were calculated in GaBi software. Uncertainty regarding the possible future raw material composition was studied, and the simulation was used to investigate process performance and to evaluate the effect of variation in the process parameters on the environmental impact indicators. Results and discussion: The results indicated that the main cobalt mineral type (cobaltite, linnaeite) had only minor effects on the evaluated impact categories. With cobaltite-dominated ores (High As case), the global warming potential (GWP) was estimated to be 20.9 kg CO2-eq, of which 12.7 kg CO2-eq was attributed to the hydrometallurgical process. With linnaeite-dominated ores, the equivalent values were 20.4 kg CO2-eq and 11.0 kg CO2-eq. The production of a high grade concentrate was observed to greatly decrease the impacts of the hydrometallurgical process, but the cobalt losses in the beneficiation stage and the mineral processing impacts would likely increase. The simulation showed that there is still potential to improve the cobalt recovery (to approximately 96%), which would also affect the indicator values. Conclusions: The impacts were estimated prior to intensive metallurgical testing to determine the possible high impact areas in the process. Based on this, it is suggested that, during hydrometallurgical processing, improved treatment of cobalt-containing wash waters and the optimization of oxygen utilization efficiency in pressure leaching are the most significant ways to decrease the environmental impacts. Optimal solutions for the concentrate could be found when experimental data on the minerals processing steps becomes available.
Original language | English |
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Pages (from-to) | 2127-2142 |
Number of pages | 16 |
Journal | International Journal of Life Cycle Assessment |
Volume | 26 |
Issue number | 11 |
Early online date | 4 Sept 2021 |
DOIs | |
Publication status | Published - Nov 2021 |
MoE publication type | A1 Journal article-refereed |
Keywords
- Battery metals
- Cobaltite ore
- Complex ore processing
- Pressure leaching
- Sustainability
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Dive into the research topics of 'Life cycle assessment and process simulation of prospective battery-grade cobalt sulfate production from Co-Au ores in Finland'. Together they form a unique fingerprint.Projects
- 1 Finished
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BATCIRCLE: Finland-based Circular Ecosystem of Battery Metals
Lundström, M. (Principal investigator), Porvali, A. (Project Member), Aromaa-Stubb, R. (Project Member), Aromaa, J. (Project Member), Wilson, B. (Project Member), Kalliomäki, T. (Project Member), Karppinen, A. (Project Member), Revitzer, H. (Project Member), Zhang, J. (Project Member), Chernyaev, A. (Project Member), Zou, Y. (Project Member), Hu, F. (Project Member), Ke, P. (Project Member), Liu, F. (Project Member), Rinne, M. (Project Member), Khalid, M. K. (Project Member), Palomäki, H. (Project Member), Partinen, J. (Project Member), Seisko, S. (Project Member), Peng, C. (Project Member), Sahlman, M. (Project Member), Wang, Z. (Project Member), Shukla, S. (Project Member), Forde, G. (Project Member) & Ruismäki, R. (Project Member)
01/01/2019 → 30/04/2021
Project: Business Finland: Other research funding
Equipment
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Raw Materials Research Infrastructure
Karppinen, M. (Manager)
School of Chemical EngineeringFacility/equipment: Facility