International Journal of Solid State Materials

Open Access  Subscription Access

This article is described to access optimal extraction process for scandium (Sc). Sediments of rare concentration have subjected commercial quantities, so forth regaining industrial importance thereby scope for assessing heavy rare-earth elements, other than Sc, otherwise they could have been a productive source for long-term extraction. Presence of Sc in lateritic Ni-Co ores has subscripted the same process as from existing hydrometallurgical Ni-Co hydroxide processing plant without affecting main circuit of process. Adhered scheme has been adjoined by precipitation-separation behaviour of Sc into respect of pH-controlled precipitation process from synthesis. Properties of scandium have been favoured in laser and lighting applications, uses in transmission lines and marine industry. Subjective demand has claims as well from any industry wherefrom it can be issued as by produced forms. Continuous deserved industrialism has issued procure base lying as applicable forms under sufficient, reliable, and reasonably priced scandium. Scandium present has linked mostly towards recovery from industrial wastes, e.g., aluminum and lateritic nickel-cobalt process units. Scheme of by-produce retrieval has been cited as an abundant source for huge and urgent scandium protocol to suggestive replicated industries. Henceforth studied aim has cited more akin to retrieve Sc as by produce than solo procure.

Kazutaka Yasukawa, Junichiro Ohta, Kazuhide Mimura, Erika Tanaka, Yutaro Takaya, Yoichi Usui, Koichiro Fujinaga, Shiki Machida, Tatsuo Nozaki, Koichi Iijima, Kentaro Nakamura, Yasuhiro Kato: A new and prospective resource for scandium: Evidence from the geochemistry of deep-sea sediment in the western North Pacific Ocean; Ore Geology Reviews; (102); (2018); pp. 260.

Serif Kaya, Carsten Dittrich, Srecko Stopic and Bernd Friedrich: Concentration and Separation of Scandium from Ni Laterite Ore Processing Streams; Metals; (7); (2017); ID: 557; p.1.

Junhui Xiao, Yang Peng, Wei Ding, Tao Chen, Kai Zou and Zhen Wang: Recovering Scandium from Scandium Rough Concentrate Using Roasting-Hydrolysis-Leaching Process; Processes; (8); (2020); ID: 365; p.1.

Chernoburova, O.; Chagnes, A. The Future of Scandium Recovery from Wastes. Mater. Proc. 2021, 5, 55. https://doi.org/ 10.3390/materproc2021005055

Franziska Klimpel, Michael Bau & Torsten Graupner: Potential of garnet sand as an unconventional resource of the critical high technology metals scandium and rare earth elements; Scientific Reports | (2021) 11:5306 | https://doi.org/10.1038/s41598-021-84614-x

S Onggang, A Maulana, Sufriadin, U R Irfan: Preliminary Study of Scandium Enrichment in Lateritic Profile from Weathered Ultramafic Rock in Lapaopao Area Kolaka Regency of Southeast Sulawesi; GIESED 2020 IOP Conf. Series: Earth and Environmental Science 921 (2021) 012040

G. NelsoN Env: ScandiumGeochemistryof the Oka Garbonatite Complex, Oka, Quebe; American Mineralogist, Volume 58, pages 819-825, 1973

Y VES Moëlo, YVES Lulzac, Olivier Rouer, P Ierre Palvadeau, É Ric Gloaguen, Philippe Léone: Scandium Mineralogy: Pretulite With Scandian Zircon And Xenotime-(Y) Within An Apatite-Rich Oolitic Ironstone From Saint-Aubin-Des-Châteaux, Armorican Massif, France; The Canadian Mineralogist Vol. 40, pp. 1657-1673 (2002)

Johannes Vind, Vicky Vassiliadou, Dimitrios PANIAS: Rare earth elements and scandium mineralogy in bauxite residue; 2nd International Bauxite Residue Valorisation and Best Practices Conference | Athens | 7-10/05/2018 | 387

Johannes Vind, Annelies Malfliet, Chiara Bonomi, Päärn Paiste, István E. Sajó, Bart Blanpain, Alan H. Tkaczyk, Vicky Vassiliadou, Dimitrios Panias: Modes of occurrences of scandium in Greek bauxite and bauxite residue; Minerals Engineering 123 (2018)pp 35–48