Abstract
Scandium is a metal with emerging uses in aluminium alloying, lighting and ceramic fuel cell applications. The current world supply is small at 15–20 tonnes per year and is largely serviced by scandium by-product recovery from production of other metals. In recent years, an increase in demand for scandium has been hampered by a lack of supply. This has driven the development of several projects where scandium production is a major focus. This paper outlines the development of scandium recovery from the Nyngan Project in New South Wales, Australia. The paper examines the issues surrounding scandium recovery from laterites and details the production process adopted by Scandium International Mining Corp for production of high purity scandium oxide. The process is based on high pressure acid leaching, scandium solvent extraction and scandium oxalate precipitation which is then calcined to scandium oxide. As the likely market for most of the product from Nyngan is the aluminium industry, the company’s research into production of aluminium-scandium master alloy is also discussed. The Nyngan scandium project is now in the detailed engineering phase and is likely to be the first primary supply of scandium in the world.
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References
Ross JR, Rosenbaum JB (1962) Reconnaissance of Scandium Sources and Recovery of Scandium from Uranium Hill Solutions, USBM report RI6064
Ross JR, Schack CH (1964) Recovery of Scandium from Uranium Plant Iron Sludge and from Wolframite Concentrates, USBM report RI6580
Wang W, Pranolo Y, Cheng CY (2011) Metallurgical processes for scandium recovery from various resources: A review. Hydrometallurgy 108:100–108
Nagakura T, Ozaki Y, Nagai H, Higaki T (2015) European Patent Application EP 3091093 A1, Sumitomo Metal Mining Co, Ltd. applicant
Lycopodium Pty Ltd. (2016) NI 43-101 Technical Report, Feasibility Study – Nyngan Scandium Project, Bogan Shire, NSW, Australia, Lycopodium Report Number 3185-000-GEREP-0001, May 4, 2016
Pepper D, Ricketts NJ (2017) The use of a centrifuge to reduce water content of HPAL tailings, ALTA 2017 Conference, 22–24 May 2017, 11 pages
Ratner AH, et al (2001) Thermodynamic calculation of metallic thermoreduction during preparation of aluminium-rare earth master alloys. Trans Nonferrous Met Soc China, 11 (1) Feb 2001:18–21
Skachov VM, Pasechnik LA, Yatsenko SP (2014) Introduction of scandium, zirconium and hafnium into aluminium alloys. Nanosystems: Physics, Chemistry, Mathematics 2014 5 (4):603–612
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The authors acknowledge the support of Scandium International Mining Corp for permission to publish this work.
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© 2018 The Minerals, Metals & Materials Society
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Ricketts, N.J., Duyvesteyn, W.P.C. (2018). Scandium Recovery from the Nyngan Laterite Project in NSW. In: Martin, O. (eds) Light Metals 2018. TMS 2018. The Minerals, Metals & Materials Series. Springer, Cham. https://doi.org/10.1007/978-3-319-72284-9_200
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DOI: https://doi.org/10.1007/978-3-319-72284-9_200
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