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Issue
Korean Journal of Chemical Engineering,
Vol.31, No.3, 452-460, 2014
Recovery of copper from a surface altered chalcopyrite contained ball mill spillage through bio-hydrometallurgical route
Panda S, Rout PC, Sarangi CK, Mishra S, Pradhan N, Mohapatra U, Subbaiah T, Sukla LB, Mishra BK
Bioleaching studies for chalcopyrite contained ball mill spillages are very scarce in the literature. We developed a process flow sheet for the recovery of copper metal from surface activated (600 ℃, 15 min) ball mill spillage through bio-hydrometallurgical processing route. Bioleaching of the activated sample using a mixed meso-acidophilic bacterial consortium predominantly A. ferrooxidans strains was found to be effective at a lixiviant flow rate of 1.5 L/h, enabling a maximum 72.36% copper recovery in 20 days. Mineralogical as well as morphological changes over the sample surface were seen to trigger the bioleaching efficiency of meso-acidophiles, thereby contributing towards an enhanced copper recovery from the ball mill spillage. The bio-leach liquor containing 1.84 g/L Cu was purified through solvent extraction using LIX 84I in kerosene prior to the recovery of copper metal by electrowinning. Purity of the copper produced through this process was 99.99%.
Keywords: Spillage; Thermal Activation; Acidithiobacillus ferrooxidans; BACFOX; Solvent Extraction; Electrowinning
[References]
  1. Wang S, J. Microbiol., 57, 48, 2005
  2. Olubambi PA, Ndlovu S, Potgieter JH, Borode JO, Hydrometallurgy, 86, 96, 2007
  3. Panda S, Sarangi CK, Pradhan N, Subbaiah T, Sukla LB, Mishra BK, Bhatoa GL, Prasad MSR, Ray SK, Korean J. Chem. Eng., 26, 781, 2012
  4. Panda S, Sanjay K, Sukla LB, Pradhan N, Subbaiah T, Mishra BK, Prasad MSR, Ray SK, Hydrometallurgy, 125-126, 157, 2012
  5. Panda S, Parhi PK, Pradhan N, Mohapatra UB, Sukla LB, Park KH, Hydrometallurgy, 121-124, 116, 2012
  6. Renman R, Xingyu L, Gang Z, Jinghe C, Jiankang W, Dianzuo W, Hydrometallurgy, 108, 130, 2011
  7. Rawlings DE, Johnson BD Eds., Biomining, Springer, 2007
  8. Crundwell FK, Hydrometallurgy, 21, 155, 1988
  9. Habashi F, McGraw-Hill, New York, 1978
  10. Watling HR, Hydrometallurgy, 84, 81, 2006
  11. Qiu M, Xiong S, Zhang W, Wang G, Min. Eng., 18, 987, 2005
  12. Valdes J, Pedroso I, Quatrini R, Dodson RJ, Tettelin H, Blake R, Eisen JA, Holmes DS, BMC Genomics, 9, 597, 2008
  13. Baba AA, Adekola FA, Atata RF, Ahmed RN, Panda S, Trans. Nonferrous Met. Soc. China, 21, 2535, 2011
  14. Acar S, Brierley JA, Wan RY, Hydrometallurgy, 77, 239, 2005
  15. Bull AT, Korean J. Chem. Eng., 18(2), 137, 2001
  16. Rao KS, Mishra A, Pradhan D, Chaudhury GR, Mohapatra BK, Das T, Sukla LB, Mishra BK, Korean J. Chem. Eng., 25(3), 524, 2008
  17. Sukla LB, Nathsarma KC, Mahanta JR, Singh S, Behera S, Rao KS, Subbaiah T, Mishra BK, Korean J. Chem. Eng., 26(6), 1668, 2009
  18. Panda S, Parhi PK, Nayak BD, Pradhan N, Mohapatra UB, Sukla LB, Bioresour. Technol., 130, 332, 2013
  19. Norgate T, Jahanshahi S, Min. Eng., 23, 65, 2010
  20. Mohapatra S, Sengupta C, Nayak BD, Sukla LB, Mishra BK, Korean J. Chem. Eng., 25(5), 1070, 2008
  21. Panda S, Panda SK, Nayak BD, Rao DS, Pradhan N, Sukla LB, Mishra BK, Proceedings of the XI international seminar on mineral processing technology, NML Jamshedpur, India, 955, 2010
  22. Panda S, Pradhan N, Mohapatra UB, Panda SK, Rath SS, Nayak BD, Rao DS, Sukla LB, Mishra BK, Front. Env. Sci. Eng., 7, 281, 2013
  23. Silverman MP, Lundgren DG, J. Bacteriol., 77, 642, 1959
  24. Modaka JM, Natarajan KA, Mukhopadhyay S, Hydrometallurgy, 42, 51, 1996
  25. Sand W, Gehrke T, Jozsa PG, Schippers A, Hydrometallurgy, 59, 159, 2001
  26. Web reference: http://www.minweb.co.uk/quartz/alphaquartz.html, Accessed on 03.04.2013.
[Cited By]
  1. Esther J, Sukla LB, Pradhan N, Panda S, Korean Journal of Chemical Engineering, 32(1), 1, 2015
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