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Ługowanie hałdy i perspektywy bioługowania dla przeróbki ubogich siarczkowych rud miedziowo-niklowych w rejonie Murmańska (Rosja)
Języki publikacji
Abstrakty
Explored reserves are reducing. Сut-off grade sulfide ores from both abandoned and currently developed deposits, overburden rock while being a major source of non-ferrous metals, pose a serious environmental hazard if unprocessed. Reasonable utilization of rock waste dumps and low-grade ore is beneficial both from environmental and economical viewpoints. New techniques are designed to increase the selectivity and completeness of the disclosure of sulfide minerals, even in low-grade ores and mining waste. Among the variety of approaches is providing a bioleaching.
Udokumentowane zasoby rudy są ograniczone. Rudy siarczkowe pozostałe w złożu po wydobyciu stwarzają poważne zagrożenie dla środowiska. Racjonalne wykorzystanie składowisk odpadów i rudy o niskiej zawartości metalu jest korzystne zarówno z punktu widzenia ochrony środowiska jak i ekonomiki. Nowe techniki mają na celu zwiększenie selektywności i kompletności wykorzystania minerałów siarczkowych, nawet z rud o niskiej zawartości i odpadów górniczych. Wśród różnych technologii rozpatrywane jest bioługowanie.
Czasopismo
Rocznik
Tom
Strony
51--57
Opis fizyczny
Bibliogr. 21 poz.
Twórcy
autor
- Institute of Industrial North Ecology Problems of the Kola Science Centre of RAS, Fersman St., 14a, Apatity, Murmansk Region, 184209, Russia
autor
- Coordination Center Geologorazvedka” LLC, 8 Line, 3/9, Vasilievsky Island, St. PETERSBURG, 199034, Russia
autor
- Institute of Industrial North Ecology Problems of the Kola Science Centre of RAS, Fersman St., 14a, Apatity, Murmansk Region, 184209, Russia
autor
- Geological Institute of the Kola Science Centre of RAS, Fersman St., 14, Apatity, Murmansk Region, 184209, Russia
autor
- Institute of Industrial North Ecology Problems of the Kola Science Centre of RAS, Fersman St., 14a, Apatity, Murmansk Region, 184209, Russia
autor
- I.V. Tananaev Institute of Chemistry and Technology of Kola Science Centre RAS, Fersman St., 26a, Apatity, Murmansk Region, 184209, Russia
Bibliografia
- 1. KASHUBA, S. G. and LESKOV, M. I. Heap leaching in Russian practice – review and analysis of perspectives. Gold and technologies, No.1(23), 2014, p.10-14.
- 2. LODEISHCHIKOV, V. V. Processing of nickel-containing ores by heap bacterial leaching. The experience of Finnish company Talvivaara. Gold mining, No.132, 2009, p.12-14.
- 3. MAKAROV, V. N. et al. Potential environmental danger of the copper-nickel ore processing tailing dumps removed from service. Chemistry for sustainable development, Vol.13, No. 1, 2005, p.85-93.
- 4. MAKAROV, D.V. et al. Changes in concentrations of Ni, Cu, Co, Fe and Mg in copper-nickel ore processing tailings during storage. Engineering ecology, No.1, 2004, p.18-28.
- 5. MASLOBOEV, V.А. et al. Environmental impact assessment of storage of copper-nickel extraction and processing wastes. Physico-technical problems of mineral resource development, No.3, 2014, p. 138-153.
- 6. POLKIN, S.I. et al. Bacterial leaching of non-ferrous and rare metals. М.: Nedra, 1982, 288 p.
- 7. PRIPACHKIN, P.V. et al. Cu-Ni-PGM and Cr deposits of the Monchegorsk district, the Kola Peninsula, Russia. Travel guide of a geological excursion, Apatity: Mining Institute KSC RAS, 2013, 44 p.
- 8. SVETLOV A.V. et al. Study of heap leaching of non-ferrous metals from sulfide materials from natural and technogenic objects of the Murmansk region. Ecology of industrial production. 2015. No.3. p.65-70.
- 9. KHALEZOV, B.D. Heap leaching of copper and copper-zinc ores: (Russian experiece). Ekaterinburg: Publ. UrD RAS, 2013, 346 p.
- 10. Annual Report TALVIVAARA, 2013, 178 p.
- 11. HAN, C. et al.. Major types, characteristics and geodynamic mechanism of Upper Paleozoic copper deposits in northern Xinjiang, northwestern China. Hydrometallurgy, V. 82, 2006. p. 308-328.
- 12. HALINEN, A.-K. et al. Microbial community of Talvivaara demonstration bioheap. Advanced Materials Research, V.20-21, 2007, P. 579.
- 13. HUNTER, C. BioHeapTM leaching of a primary nickel-copper sulphide ore. Nickel/Cobalt-8 Technical Proceedings (Perth), ALTA Metallurgical Services, Melbourne, 2002, 11 p.
- 14. HUNTER, C. J. et al. Bacterial oxidation of sulphide ores and concentrates. United States Patent No. US 7189527 B2, 2007, 8 p.
- 15. PUHAKKA, J. A. et al. Heap leaching of black schist. In: Rawlings D. E., Johnson D. B. (Eds.), Biomining, Berlin: Springer, 2007. p.139-151.
- 16. QIN, W.Q. et al. Heap bioleaching of a low-grade nickel-bearing sulfide ore containing high levels of magnesium as olivine, chlorite and antigorite. Hydrometallurgy, V.98. p. 58-65.
- 17. RIEKKOLA-VANHANEN, M. Talvivaara black schist bioheapleaching demonstration plant. Advanced Materials Research, V.20-21, 2007, p.30-33.
- 18. WATLING, H. R. The bioleaching of nickel sulphides. Hydrometallurgy, V.91. N1-4, 2008, p.70-88.
- 19. WEB source a: http://www.mineral.ru/Analytics/worldtrend/108/240/index.html
- 20. WEB source b: http://www.talvivaara.com/investors/financial_information/Annual-reports
- 21. WILLIAMS, T. BIOHEAP™ bacterial leaching of the Sherlock Bay Nickel Mine primary nickel-sulphide ore in saline water. Nickel/Cobalt Conference (Perth), ALTA Metallurgical Services, Melbourne, 2006, 13 p.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c98e1485-a1bb-4388-bdc3-c7bac475d28e