• Acquire
Hide
Journals →  Tsvetnye Metally →  2011 →  #1 →  Back

Beneficiation
ArticleName Kinetic regularities of bio-leaching of persistent gold-bearing concentrate with usage of association of microorganisms
ArticleAuthor Zaulochniy P. A., Sedelnikova G. V., Savari E. E., Kim D. Kh.
ArticleAuthorData P. A. Zaulochnyy, Candidate, e-mail: zaulochny@rambler.ru; G. V. Sedel'nikova, Deputy Director; E. E. Savari, Head of Biotechnological Laboratory; D. Kh. Kim, Head of Geotechnological Laboratory, Central Geological Research Institute for Nonferrous and Precious Metals.
Abstract
The objective of this work was to compare the accelerate refractory sulphide concentrate biooxidation abilities of the pure and mixed mesophilic and moderately termophilic acidophiles cultures. Results of sulphide concentrate bioleaching were analyzed using the enzyme catalysis theory. Different effective kinetics parameters were calculated for Michaelis—Menten equation. Using microorganism association, including moderately termophilic, allow to intensity biohydrometallurgical refractory gold sulfide concentrate treatment. Bacterial leaching duration decreased, sulphide minerals oxidation increased. During next hydrometallurgical bioresidue treatment gold recovery by sorption cyanidation increased and cyanide consumption decreased.
keywords Bacterial leaching, gold-bearing concentrate, pyrite, apsenopyrite, microorganisms, oxidation, cyanidation.
References

1. Brayko V. I., Ivanov V. N. Zolotodobycha. Gold-mining. 2009. No. 125 (April). pp. 38–43.

2. Kuzmin Moscow I., Zorina L. D., Spiridonov A. Moscow and etc. Tsvetnye metally. Non-ferrous metals. 2000. No. 8. pp. 4–9.

3. Migachev I. F., Benevolskiy B. I. Otechestvennaya geologiya. Domestic geology. 1997. No. 3. pp. 7–11.

4. Benevolskiy B. I. Mineralnye resursy Rossii. Ekonomika i upravlenie. Mineral resources of Russia. Economics and management. 2006. No. 2. pp. 8–14.

5. Novozhilov Yu. I., Gavrilov A. M. Zoloto-sulfidnye mestorozhdeniya v uglerodisto-terrigennykh tolshchakh. Gold-sulphide deposits in carbonic-terrigenous strata. Moscow, 1999. 175 pp.

6. Karavayko G. I., Sedelnikova G. V., Aslanukov R. Ya. and etc. Tsvetnye metally. Non-ferrous metals. 2000. No. 8. pp. 20–26.

7. Sedelnikova G. V., Savari E. E., Kondrateva T. F. Gornyy zhurnal. Mining Journal. 2005. No. 1. pp. 59–63.

8. Kornish-Bouden E. Osnovy fermentativnoy kinetiki : per. s angl. Basics of fundamental kinetics : transl. from Engl. Moscow, 1979. 280 pp.

9. Berezin I. V., Klesov A. A. Prakticheskiy kurs khimicheskoy i fermentativnoy kinetiki. Practical course of chemical and enzymatic kinetics. Moscow, 1976. 280 pp.

10. Savari E. E., Sedelnikova G. V. Osobennosti gidrometallurgicheskoy pererabotki produktov biookisleniya upornykh zolotosul'fidnykh kontsentratov. Chetvertyy Moskovskiy mezhdunarodnyy kongress «Biotekhnologiya : sostoyanie i perspektivy razvitiya». 4th Moscow International Congress “Biotechnology : state and prospects of development”. Moscow, 2007. Ch. 2. pp. 324.

11. Plaksin I. N. Metallurgiya blagorodnykh metallov. Metallurgy of presious metals. Moscow, 1958. 366 pp.
Language of full-text russian
Full content Buy
Back