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Metallurgist

Erschienen in:

16.11.2021

Review of Man-Made and Secondary Raw Materials of Platinum-Group Metals and their Classification

verfasst von: S. A. Fedorov, A. M. Amdur

Erschienen in: Metallurgist | Ausgabe 7-8/2021

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Abstract

A literature review on industrial and household waste that can serve as a potential raw material for producing platinum-group metals is presented. Ten types of man-made and secondary raw materials are identified and divided into three large groups: mining and metallurgical waste, household waste, power-industry waste. All the groups and types are characterized.

Vorheriger Artikel State-of-the-Art and Problems of Bioleaching of Metals from Ash-and-Slag Wastes

Nächster Artikel Metallurgist Volume 65, Number 8

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A. V. Faller, “State of affairs in the world market of platinum-group metals,” Prognoz Razvitiya. Molodoi Uchenyi, No. 14 (200), 200–205 (2018).

L. I. Gurskaya, O. N. Snezhko, S. P. Vasil’ev, and A. V. Molchanov, “Man-made deposits of platinum metals as a new resource of valuable industrial raw materials,” Regional. Geolog. Metallogen., No. 66, 80–90 (2016).

A. B. Makarov, A. G. Talalai, and G. G. Khasanova, “Geological and industrial types of man-made deposits,” Vestn. IG Komi NTs UrO RAN, No. 8, 80–85 (2018); https://doi.org/10.19110/2221-1381-2018-8-39-45.

E. P. Yanin, “Platinum metals in the environment (abundance, sources, pollution, recycling),” Nauch. Tekhn. Aspekty Okhrany Okruzh. Sredy, No. 5, 2–94 (2008).

M. Samir, F. Alama, P. Buysse, T. Nylenvan, and O. Ostanin, “Disposal of mining waste: Classification and international recycling experience,” in: Proc. 3rd Int. Innovative Mining Symp., E3S Web of Conferences 41 (2018), pp. 1–6; https://doi.org/10.1051/e3sconf/20184102012.

G. V. Petrov, A. Ya. Boduen, I. I. Mardar’, B. S. Ivanov, and A. S. Boginskaya, “Noble metal resources in man-made objects of the mining and metals sector of Russia,” Uspekhi Sovrem. Estestvozn., No. 3, 145–148 (2013).

A. Boduen, G. Petrov, M. Toitskaya, and S. Fokina, “Technogenic deposits in Russia: Precious metals stocks and prospects of their recovery,” J. Mater. Sci. Res., No. 3 (1), 21–24 (2014); https://doi.org/10.5539/jmsr.v3n1p21.

N. S. Bortnikov, V. V. Distler, I. V. Vikent’ev, G. N. Gamyanin, A. V. Grigor’eva, T. L. Grokhovskaya, S. F. Sluzhenikin, and B. R. Tagirov, “Forms of occurrence of noble metals in ores of complex deposits: method of study, quantitative characteristics, process value,” in: Problems of Minerageny of Russia [in Russian], Russian Academy of Sciences, Division of Earth Sciences (2012), pp. 365–384.

M. A. Nevskaya, S. V. Fedoseev, and A. M. Oksana, “The analysis of the problems of mining waste products in the mineral resources sector of the Russian Federation,” Int. J. Appl. Eng. Res., No. 11 (16), 9018–9025 (2016).

10.

N. G. Kaitmazov (ed.), Production of Metals Beyond the Polar Circle [in Russian], Antei Ltd., Norilsk (2007).

11.

L. Sh. Tsemekhman, V. B. Fomichev, L. N. Ertseva, N. G. Kaitmazov, S. M. Kozyrev, V. I. Maksimov, Ya. M. Shneerson, and V. T. D’yachenko, Atlas of Mineral Raw Materials, Technological Industrial Products, and Market Products of Norilsk Nickel [in Russian], Rudy i Metally, Moscow (2010).

12.

L. F. Perevozchikov, V. N. Mitkin, A. A. Galizky, Yu. V. Shubin, S. M. Zhmodik, V. G. Tsimbalist, S. B. Zayakina, and V. G. Merkulov, “Platinum group elements in sulfide-bearing black shale ores, ore concentrates and tailings from the Zun-Kholba Gold Deposit (Russia),” in: Proc. 11th Int. Platinum Symp. (2010), pp. 1–4.

13.

J. Vogeli, D. L. Reid, M. Becker, J. Broadhurst, and J.-P. Franzidis, “Investigation of the potential for mineral carbonation of PGM tailings in South Africa,” Minerals Eng., No. 24, 1348–1356 (2011); https://doi.org/10.1016/j.mineng.2011.07.005.

14.

D. A. Dodin, V. M. Izoitko, L. K. Govorova, and L. N. Kovalenko, “Mineralogy of superlarge man-made deposits of platinum metals,” in: Proc. Annual Meeting of the Russian Mineralogical Society on Modern Methods of Chemical Mineralogy Studies as the Basis for Identification of New Ores and Integrated Development Technology [in Russian], St. Petersburg (2006), pp. 89–92.

15.

Z. Xiao and A. R. Laplante, “Characterizing and recovering the platinum group minerals — a review,” Minerals Eng., No. 17, 961–979 (2004); https://doi.org/10.1016/j.mineng.2004.04.001.

16.

A. Ya. Boduen, G. V. Petrov, I. I. Mardar’, and B. S. Ivanov, “Recovery of noble and nonferrous metals from the man-made raw materials of the Norilsk Industrial Region: Practice and Research,” Uspekhi Sovrem. Estestvozn., No. 3, 143–145 (2013).

17.

S. Mohamed, E. M. Merwevander, W. Altermann, and F. J. Doucet, “Process development for elemental recovery from PGM tailings by thermochemical treatment: Preliminary major element extraction studies using ammonium sulphate as extracting agent,” Waste Management, 1–12 (2016); https://doi.org/10.1016/j.wasman.2016.02.021.

18.

N. V. Kovalev, “Modern concentration technologies for platinum metals in man-made waste of processing of sulphidic copper–nickel ores,” Zap. Gornogo Inst., No. 189, 284–287 (2011).

19.

N. F. Usmanova and A. S. Shoshina, “Recovery of nonferrous and noble metals from the slurry fraction of weathered tailings of copper–nickel ores,” Gorn. Inform.-Analit. Byull., No. S15, 493–500 (2009).

20.

A. G. Mikhailov, M. Yu. Kharitonova, I. I. Vashlaev, and M. L. Sviridova, “Mobility of non-ferrous and noble metals in concentration tailings,” Sovr. Probl. Nauki Obrazov., No. 6, 1–9 (2014).

21.

V. A. Makarov, V. G. Mikheev, and P. N. Samorodskii, “Mineralogy of the slag dumps of the Norilsk Nickel Plant,” Gorn. Zh., No. 3, 50–55 (2016); https://doi.org/10.17580/gzh.2016.03.11.

22.

V. N. Shamov, A. I. Yur’ev, S. I. Matveeva, L. I. Alekseeva, and V. D. Chegodaev, “Studying the real composition of the slags of the Metallurgical Shop of the Norilsk Nickel Copper Plant,” Tsvetn. Metal., No. 9, 49–52 (2006).

23.

V. A. Silkin, “Mineralogy of gold, silver, and platinum-group elements in refining slags,” in: Proc. 16th Int. Academician M. A. Usov. Symp. of Students and Young Scientists on Problems of Geology and Subsoil Development [in Russian], TPU, Tomsk (2012), pp. 151–153.

24.

A. Amdur, S. Fedorov, and V. Pavlov, “Reasons for loss of platinum when processing copper–nickel sulfide ore,” in: Proc. Conf. METAL (2020), pp. 930–935; https://doi.org/10.37904/metal.2020.3587.

25.

C. Nowottny, W. Halwachs, and K. Schiigerl, “Recovery of platinum, palladium and rhodium from industrial process leaching solutions by reactive extraction,” Separ. Purif. Technol., No. 12, 135–144 (1997).

26.

L. S. Stryzhko, Yu. Yu. Kostyukhin, G. V. Kruzhkova, and E. A. Ivanova, “Recovery of non-ferrous and noble metals from electronic waste: economic indicators and pricing strategy,” Izv. VUZov: Tsvetn. Metallurg., No. 3, 28–33 (2013).

27.

A. A. Emel’yanov, E. S. Pelymskaya, and M. V. Berezyuk, “Economic evaluation of the processing of electronic waste and scrap in the Russian Federation,” Modern Economy Success, No. 1, 38–45 (2019).

28.

H. Hasegawa, S. Barua, T. Wakabayashi, A. Mashio, T. Maki, Y. Furusho, and I. M. M. Rahman, “Selective recovery of gold, palladium, or platinum from acidic waste solution,” Microchemical J., No. 139, 174–180 (2018); https://doi.org/10.1016/j.microc.2018.02.025.

29.

M. Saternus, A. Fornalczyka, and J. Cebulski, “Analysis of platinum content in used auto catalytic converter carriers and the possibility of its recovery,” Arch. Metallurg. Mater., No. 59 (2), 557–564 (2014); https://doi.org/10.2478/amm-2014-0092.

30.

H. Dong, J. Zhao, J. Chen, Yu. Wu, and B. Li, “Recovery of platinum group metals from spent catalysts: A review,” Int. J. Mineral Process., 1–19 (2015); https://doi.org/10.1016/j.minpro.2015.06.009.

31.

C. Liu, S. Sun, X. Zhu, and G. Tu, “Metals smelting-collection method for recycling of platinum group metals from waste catalysts: A mini review,” Waste Management & Research, 1–10 (2020); https://doi.org/10.1177/0734242X2096.

32.

A. V. D’yachkova, A. D. Kirillov, O. A. Dal’nova, and Yu. A. Karpov, “Development of methods for sample preparation of spent automotive metal-based catalysts using heterochain SN-containing sorbents,” Uspekhi Khimii Khim. Tekhnol., No. 25 (2), 29–32 (2011).

33.

T. Yu. Alekseeva, Yu. A. Karpov, O. A. Dal’nova, V. V. Es’kina, V. B. Baranovskaya, and L. D. Gorbatova, “State of the art and problems of analytical control of spent automotive catalysts (review),” Zavod. Lab.: Diagnost. Mater., No. 83 (11), 5–14 (2018).

34.

D. V. Ladonin, “Platinum-group elements in soils and street dust of the Southeastern Administrative District of Moscow,” Eurasian Soil Science, No. 51 (3), 268–276 (2018); https://doi.org/10.1134/S1064229318030055.

35.

A. G. Samoilov, “New class of man-made placer deposits of platinum-group metals,” Nedra Povolzh’ya i Prikaspiya, No. 101, 90–94 (2020); https://doi.org/10.24411/1997-8316-2020-11018.

36.

A. A. Cherepanov, “Noble metals in the ash-and-slag waste of the Far East Combined Heat and Power Plants,” Tikhookeansk. Geolog., No. 27 (2), 16–28 (2008).

Titel: Review of Man-Made and Secondary Raw Materials of Platinum-Group Metals and their Classification
verfasst von: S. A. Fedorov
A. M. Amdur
Publikationsdatum: 16.11.2021
Verlag: Springer US
Erschienen in: Metallurgist / Ausgabe 7-8/2021
Print ISSN: 0026-0894
Elektronische ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-021-01218-6

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