XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 21
Harvest, L. (2024). Innovative Lithium Extraction
Technology—Lithium Harvest. www.lithiumharvest.
com.
Highview Power. 2024. UK Infrastructure Bank &Centrica
Partners Invest £300 m in Highview Power Clean
Energy Storage Programme to Boost UK’s Energy
Security. www.highviewpower.com.
Industrial Decarbonization Research and Innovation
Centre team. 2024. Stakeholders. www.idric.com.
International Energy Agency. 2021. The Role of Critical
Minerals in Clean Transitions. Paris: World Energy
Outlook Special Report.
International Energy Agency. 2022. Executive Summary.
www.iea.com.
International Energy Agency. 2022. Sustainable and
responsible development of minerals. www.iea.com.
International Energy Agency. 2024. Copper. www.iea.com.
IPSOS. 2023. IPSOS Veracity Index 2023- Trust in profes-
sions survey. www.ipsos.com.
Krishnasamy, R. (2022). Li-Cycle: Sustainable lithium-ion
battery recycling technology. www.li-cycle.com.
Krishnasamy, R. (2024). Li-Cycle Partners with Daimler
Truck North America on Recycling Lithium-ion
Batteries. www.licycle.com.
Kulczycka, J., Goralczyk, M., and Lelek, Ł. 2015.
Environmental Impacts of Energy-Efficient
Pyrometallurgical Copper Smelting. Journal of
Industrial Ecology 19(1):44–52.
Lezak, S., Cannon, C. and, Blank, T.K. 2019. Low-Carbon
Metals for a Low-Carbon World: A New Energy
Paradigm for Mines, Rocky Mountain Institute.
London Metal Exchange. 2024. EV metals. www.lme.com.
Mayer, C. 2024.Capitalism and Crises- and how to fix them.
Oxford: Oxford University Press. p. 336.
Meskers, C., Worrel, E., and Reuter, M.A. 2023. Handbook
of Recycling. Amsterdam: Elsevier. p. 738.
Mansell, G. 2023. Understand Your Copper Emissions.
www.carbonchain.com.
Mining3. 2024. Research areas. www.mining3.com.
Nicolaci, H., Sachs, G., Young, P. et al. 2023. Global Metals
&Mining Direct Lithium Extraction: A potential
game changing technology. www.goldmansachs.com.
Ribeiro, H. and Yuen, M. (2022). Infographic: Insufficient
lithium supply could decelerate energy transition.
www.spglobal.com.
Reuter, M. A., Boin, U. M. J., A van Schaik, E. et al.
2005. The Metrics of Material and Metal Ecology.
Amsterdam: Elsevier Science, p.720.
Sanderson, H. 2022. Volt Rush—Winners and Losers in the
Race to Go Green. London: Oneworld Publications.
p. 275.
Saygin, D., M. K. Patel, and D. J. Gielen. 2010. Global
industrial energy efficiency benchmarking. Working
paper. Vienna: United Nations Industrial Development
Organization.
Sovacool, B.C., Ali, S.H., Bazilian M. et al. 2020. Policy
coordination is needed for global supply chains.
Sustainable minerals and metals for a low-carbon future
367 (6473): 30–33.
University of Queensland’s Sustainable Minerals Institute.
2024. Collaborative Consortium for Coarse Particle
Processing Research. www.smi.com.
Harvest, L. (2024). Innovative Lithium Extraction
Technology—Lithium Harvest. www.lithiumharvest.
com.
Highview Power. 2024. UK Infrastructure Bank &Centrica
Partners Invest £300 m in Highview Power Clean
Energy Storage Programme to Boost UK’s Energy
Security. www.highviewpower.com.
Industrial Decarbonization Research and Innovation
Centre team. 2024. Stakeholders. www.idric.com.
International Energy Agency. 2021. The Role of Critical
Minerals in Clean Transitions. Paris: World Energy
Outlook Special Report.
International Energy Agency. 2022. Executive Summary.
www.iea.com.
International Energy Agency. 2022. Sustainable and
responsible development of minerals. www.iea.com.
International Energy Agency. 2024. Copper. www.iea.com.
IPSOS. 2023. IPSOS Veracity Index 2023- Trust in profes-
sions survey. www.ipsos.com.
Krishnasamy, R. (2022). Li-Cycle: Sustainable lithium-ion
battery recycling technology. www.li-cycle.com.
Krishnasamy, R. (2024). Li-Cycle Partners with Daimler
Truck North America on Recycling Lithium-ion
Batteries. www.licycle.com.
Kulczycka, J., Goralczyk, M., and Lelek, Ł. 2015.
Environmental Impacts of Energy-Efficient
Pyrometallurgical Copper Smelting. Journal of
Industrial Ecology 19(1):44–52.
Lezak, S., Cannon, C. and, Blank, T.K. 2019. Low-Carbon
Metals for a Low-Carbon World: A New Energy
Paradigm for Mines, Rocky Mountain Institute.
London Metal Exchange. 2024. EV metals. www.lme.com.
Mayer, C. 2024.Capitalism and Crises- and how to fix them.
Oxford: Oxford University Press. p. 336.
Meskers, C., Worrel, E., and Reuter, M.A. 2023. Handbook
of Recycling. Amsterdam: Elsevier. p. 738.
Mansell, G. 2023. Understand Your Copper Emissions.
www.carbonchain.com.
Mining3. 2024. Research areas. www.mining3.com.
Nicolaci, H., Sachs, G., Young, P. et al. 2023. Global Metals
&Mining Direct Lithium Extraction: A potential
game changing technology. www.goldmansachs.com.
Ribeiro, H. and Yuen, M. (2022). Infographic: Insufficient
lithium supply could decelerate energy transition.
www.spglobal.com.
Reuter, M. A., Boin, U. M. J., A van Schaik, E. et al.
2005. The Metrics of Material and Metal Ecology.
Amsterdam: Elsevier Science, p.720.
Sanderson, H. 2022. Volt Rush—Winners and Losers in the
Race to Go Green. London: Oneworld Publications.
p. 275.
Saygin, D., M. K. Patel, and D. J. Gielen. 2010. Global
industrial energy efficiency benchmarking. Working
paper. Vienna: United Nations Industrial Development
Organization.
Sovacool, B.C., Ali, S.H., Bazilian M. et al. 2020. Policy
coordination is needed for global supply chains.
Sustainable minerals and metals for a low-carbon future
367 (6473): 30–33.
University of Queensland’s Sustainable Minerals Institute.
2024. Collaborative Consortium for Coarse Particle
Processing Research. www.smi.com.