Optimization of Effective Parameters on Copper Bioleaching from Low-Garde Sulfide Ore from Shahrbabak Copper Complex

Document Type : Original Articles

Authors

University of Tehran

Abstract

In this paper, the effective parameters on bioleaching of copper from low grade copper-sulfide ore from Shahrbabak copper complex were investigated using design of experiments. Mesophelic bacteria of A. ferrooxidans (T.f) and A. thiooxidans (T.t) were used. A two-factorial methodology was used to find the effective parameters. Response surface methodology was applied to optimize the leaching of copper. The individual effects and possible interactions of pulp density, percent of T.t bacteria and amount of Fe on the bioleaching of copper were investigated. The optimum conditions were determined using statistical analysis and analysis of variance (ANOVA). The optimum conditions for the copper recovery of 99.4% were pulp density of 7.55 g/mL, 80% of T.t bacteria and 20 g/L of Fe. Also, the most effective factor for the copper recovery was the percent of T.t bacteria. Furthermore, the statistical analysis indicates that the model fits the experimental data well.

Keywords

References

  1. Ahmadi A., Schaffie M., Petersen J., Schippers A. and Ranjbar M., "Conventional and electrochemical bioleaching of chalcopyrite concentrates by moderately thermophilic bacteria at high pulp density", Hydrometallurgy, Vol. 106, pp. 84-92, (2011).
  2. Muñoz J.A., Dreisinger D.B., Cooper W.C. and Young S.K., "Silver-catalyzed bioleaching of low-grade copper ores. Part I: shake flasks tests", Hydrometallurgy, Vol. 88, pp. 3-18, (2007).
  3. Lee J., Acar S., Doerr D.L. and Brierley J.A., "Comparative bioleaching and mineralogy of composited sulfide ores containing enargite, covellite and chalcocite by mesophilic and thermophilic microorganisms", Hydrometallurgy, Vol. 105, pp. 213-221, (2011).
  4. Muravyov M.I., Fomchenko N.V. and Kondrateva T.F., "Biohydrometallurgical technology of copper recovery from a complex copper concentrate", Prikladnaya Biokhimiya i Mikrobiologiya, Vol. 47, pp. 663-671, (2007).
  5. لطفعلیان م. ، رنجبر م.، فضائلی پور م.ح.، شفیعی م.، منافی ز.، "افزایش بازیابی مس در بیولیچینگ کنسانتره کالکوپیریتی با کنترل الکتروشیمیایی پتانسیل پالپ در حالت پیوسته" نشریه علوم و مهندسی جداسازی، دوره 7، 35-43، (1394).
  6. Demergasso C.S., Galleguillos P.A., Escudero G., Zepeda L.V., Castillo D. and Casamayor E.O., "Molecular characterization of microbial populations in a low-grade copper ore bioleaching test heap", Hydrometallurgy, Vol. 80, pp. 241-253, (2005).
  7. Brandle H., "Microbial leaching of metals", Biotechnology, Vol. 10, pp. 191-224, (2001).
  8. وقار ر.، اولیازاده م.، وقار م.ر.، "فناوری میکروبی در متالورژی"، تهران: دانشگاه صنایع و معادن ایران، (1379).
  9. Brombacher C., Bachon R., Brand H., "Biohydrometallurgical processing of solids: a patent review", Applied Microbiology and Biotechnology, Vol. 48, pp. 577-587, (1997).
  10. Wang J., Zhu S., Zhang Y., Zhao H., Hu M., Yang C., Qin W. and Qiu G., "Bioleaching of low­grade copper sulfide ores by Acidithiobacillus ferrooxidans and Acidithiobacillus thiooxidans", Journal of Central South University, Vol. 21, pp. 728-734, (2014).
  11. Akcil A., Ciftci H. and Deveci H., "Role and contribution of pure and mixed cultures of mesophiles in bioleaching of a pyritic chalcopyrite concentrate", Journal of Minerals Engineering, Vol. 20, pp. 310-318, (2007).
  12. Pradhan N., Nathsarma K.C., Rao K.S., Sukla L.B. and Mishra B.K., "Heap bioleaching of chalcopyrite: A review", Minerals Engineering, Vol. 21, pp. 355-365, (2008).
  13. Manafi Z., Abdollahi H. and Tuovinen O.H., "Shake flask and column bioleaching of a pyritic porphyry copper sulphide ore", International Journal of Mineral Processing, Vol. 119, pp. 16-20, (2013).
  14. Wang Y., Su L.J., Zeng W., Qiu G., Wan L., Chen X. and Zhou H., "Optimization of copper extraction for bioleaching of complex Cu-polymetallic concentrate by moderate thermophiles", Transactions of Nonferrous Metals Society of China, Vol. 24, pp. 1161-1170, (2014).
  15. Pogliani C., Fetsis P. and Donati E., "Bioleaching of copper sulphide ore by pure and mixed cultures of mesophilic bacteria", Hydrometallurgy, Vol. 87, pp. 275-281, (2005).
  16. Yang Y., Diao M., Liu K., Qian L. and Qiu G., "Column bioleaching of low­grade copper ore by Acidithiobacillus ferrooxidans in pure and mixed cultures with a heterotrophic acidophile Acidiphilium sp", Hydrometallurgy, Vol. 131/132, pp. 93-98, (2013).
  17. Montgomery D.C., "Design and Analysis of Experiments", 8th Edition, John Wiley & Sons, Incorporated, (2013).
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Journal Of Metallurgical and Materials Engineering
Volume 31, Issue 2 - Serial Number 22
Spring and Summer
September 2020
Pages 95-108

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