Abstract
Bauxite ore contains ~65% of world Scandium recoverable reserves. From Bayer extractable alumina >96% of Scandium merges into red mud (RM). In smelter grade alumina produced from the bauxites Sc2O3 content ranges from 1.2 to 2.3 ppm. Sc content in initial bauxite has little influence on its content in alumina. Scandium that is present in red mud after processing of Middle Timan bauxite and Nothern-Ural bauxite has two forms. Part of Scandium (~65%) can be readily extracted from boehmite and diaspore. Sc2O3 content in Al monohydrates amounts to 80–100 ppm. During autoclave digestion Sc goes into red mud as extractable form (Scav) and is adsorbed on the RM surface in form of oxyhydroxide ScO(OH). Sorbed scandium can be present on the surface of any RM phase or mineral. And due to this property concentrating of Scav during RM treatment is inefficient. Scav can be easily digested with sodium bicarbonate solution under “mild” conditions. Chemically bonded Scandium in the structure of mainly iron-containing minerals of bauxite (30 ± 15%) can be extracted by “severe” acid leaching with breaking of crystal structure of hematite and other minerals. When bauxite is digested in autoclave (Bayer process) new phases are formed (calcium hydrogarnet (HG) and sodium hydroalumosilicate (DSP). Hydrogarnets and DSP do not bind Scandium chemically and it indirectly confirms Scandium sorbing properties in RM. Tests on development of sodium bicarbonate digestion modes of scandium from RM showed significant range of values of Sc extraction into the solution (from 10 to 65%). One of the most important factors affecting Sc extraction is Sc secondary losses due to formation of new phases (incl. aragonite, dawsonite, etc.) These phases are in equilibrium under such conditions. The mechanism of Sc secondary losses during sodium bicarbonate digestion of red mud was analyzed, and some practices to increase of extraction values were offered.
Keywords
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsNotes
- 1.
Chamosite in STBR and SUBR bauxites has an “ideal” formula: 4FeO × Al203 × 3SiO2 × 4H2O. Research showed the chamosite structure actually contains the following: up to 4.4% MgO, up to 1.6% CaO, up to 1.1% TiO2 and up to 2.5% CO2. Also part of chamosite in bauxite is oxidized that is why up to 20% Fe2+ is oxidized to Fe3+, and it affects its crystal structure, behavior during autoclave digestion and decomposition.
References
L.Z. Bykhovsky, V.V. Arkhangelskaya, L.P. Tigunov, S.I. Anufrieve “Scandium of Russia: Prospects of development of raw material base and production”/ “Mineral raw materials”. Geological and economic series, No 22, M.: VIMS, 2007, 45.
S.I. Beneslavsky “Bauxite mineralogy”, M., Nedra, 1974, 168.
V.I. Korneev, A.G. Suss, A.I. Tsekhovoy “Red mud – properties, storage, application”, M., Metallurgy, 1991, 144.
L.E. Mordberg, C.J. Stanley and K. Germann “Mineralogy and geochemistry of trace elements in bauxites: the Devonian Schugorsk deposit, Russia” Mineralogical Magazine, February 2001, Vol. 65(1), 81–101.
Johannes Vind, Päärn Paiste, Alan H. Tkaczyk, Vicky Vassiliadou, Dimitrios Panias “The Behaviour of Scandium in the Bauer Process”, 2 nd European Rare Earth Resources Conference, |Santorini Greece, 28‐31/05/2017, 190–192.
Chiara Bonomi, Ioanna Giannopoulou, Dimitrios Panias “Correlation of Scandium and Titanium During Leaching of Bauxite Residue (Red Mud) by an Imidazolum Ionic Liquid”, 2 nd European Rare Earth Resources Conference, Santorini Greece, 28‐31/05/2017, 199–201.
B.V. Korshunov, A.M. Reznik, S.A. Semenov “Scandium”, M., Metallurgy, 1987, 184.
M. Loan, B. Loughlin, J. Haines, D. Croker, M. Fennell & B.K. Hodnett “In situ time-resolved synchrotron diffraction studies of high temperature Bayer digestion”, Proceedings of the 7th International Alumina Quality Workshop, Australia, Perth, 117–120.
Tatyana Golovanova, Tatyana Mukina, Yulia Chernyshova, Alexander Suss “Quantitative Chemical Analysis of Red Mud and Products of its Processing to Scandium, Zirconium and REE Oxides by ICP AES”, 34 th ICSOBA Conference and Exhibition, Quebec, Canada, 241–246.
Acknowledgements
The authors are grateful for assistance rendered in the preparation of this work to the employees of “RUSAL ETC” LLC: Golovanova T. G., Chernyshova Yu. A., Damaskina A. A., Kotova T. P., Paromova I. V.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2018 The Minerals, Metals & Materials Society
About this paper
Cite this paper
Suss, A., Panov, A., Kozyrev, A., Kuznetsova, N., Gorbachev, S. (2018). Specific Features of Scandium Behavior During Sodium Bicarbonate Digestion of Red Mud. 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_22
Download citation
DOI: https://doi.org/10.1007/978-3-319-72284-9_22
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-72283-2
Online ISBN: 978-3-319-72284-9
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)