REFERENCES
- Ammou-Chokroum , M. , Cambazoglu , M. , and Steinmez , D. , 1977 , “Oxydation menagée de la chalcopyrite en solution acide: analyses cinétique de réactions. II. Modéles diffusionales.” Bulletin De La Societe Francaise Mineralogie Et De Cristallographie , 100 , pp. 61 – 177 .
- Betejtin , A. , 1977 , Curso de Mineralogía, , 3rd Ed. , Moscú : Mir , pp. 196 – 446 .
- Brahma , N. K. , 2002 , “The importance of bioleaching in mineral processing, specially copper (Cu), gold (Au), silver (Ag), uranium (U) and other chalcopyrite ore.” In Proceedings of the National Seminar on Mineral Biotechnology, New Delhi: Allied, pp. 94–100.
- Bravo , P. , 2006 , “El panorama de la hidrometalurgia.” Revista Minería Chilena , 303 . http://www.mch.cl
- Burkin , A. R. , 1969 , “Solid-state transformations during leaching.” Mining and Scientific Engineering , 1 , pp. 4 – 14 .
- Classen , R. , 1992 , “Mineralogical controls on the bacterial oxidation of refractory Barberton gold ores.” FEMS Microbiology Reviews , 11 , pp. 197 – 205 .
- Córdoba , E. M. , 2005 , “Nuevas evidencias sobre los mecanismos de lixiviación química y biológica de la calcopirita.” PhD Thesis, Universidad Complutense de Madrid, p. 344.
- Córdoba , E. M. , Muñoz , J. A. , Blázquez , M. L. , González , F. , and Ballester , A. , 2008 , “Leaching of chalcopyrite with ferric ion. Part II: effect of redox potential.” Hydrometallurgy , 93 ( 3–4 ), pp. 88 – 96 .
- Crundwell , F. K. , 2003 , “How do bacteria interact with minerals?” Hydrometallurgy , 71 , pp. 75 – 81 .
- Dutrizac , J. E. , 1978 , “The kinetics of dissolution of chalcopyrite in ferric ion media.” Metallurgical Transactions B , 9 ( 4 ), pp. 431 – 439 .
- Ferron , C. J. , 2003 , “Leaching of secondary copper minerals using regenerated ferric sulphate.” In Copper VI: Hydrometallurgy of Copper ( P. A. Riveros , D. Dixon , D. B. Dreisinger , and J. Menacho , Eds). Montreal : Canadian Institute of Mining, Metallurgy and Petroleum , pp. 337 – 352 .
- Hackl , R. P. , Dreisinger , D. B. , Peters , E. , and King , J. A. , 1995, “Passivation of chalcopyrite during oxidative leaching in sulfate media.” Hydrometallurgy , 39, pp. 25–48.
- Hallberg , K. B. and Johnson , D. B. , 2001 , “Biodiversity of acidophilic prokaryotes.” Advances in Applied Microbiology , 49 , pp. 37 – 84 .
- Hiroyoshi , N. , Hirota , M. , Hirajama , T. , and Tsunekawa , M. , 1999 , “Inhibitory effect of iron-oxidizing bacteria on ferrous-promoted chalcopyrite leaching.” Biotechnology and Bioengineering , 64 ( 4 ), pp. 478 – 483 .
- Hiroyoshi , N. , Miki , H. , Hirajima , T. , and Tsunekawa , M. , 2001 , “Enhancement of chalcopyrite leaching by ferrous ions in acidic ferric sulfate solutions.” Hydrometallurgy , 60 , pp. 185 – 197 .
- Jang , J. H. and Wadsworth , M. E. , 1993 , “Hydrothermal conversion of chalcopyrite under controlled Eh and pH.” In The Paul E. Queneau International Symposium—Extractive Metallurgy of Copper, Nickel and Cobalt, Volume I: Fundamental Aspects , ( R.G. Reddy , and R. N. Weizenbach , Eds.), Warrendale , PA : The Minerals, Metals & Materials Society , pp. 689 – 707 .
- Keeling , S. E. , Davies , K. L. , Johnson , J. A. , and Watling , H. R. , 2004 , “Isolation and phenotypic characterization of Australian mining microbes from a spent heap.” In Proceedings of the Bac-Min Conference , Bendigo , Melbourne : AusIMM , pp. 35 – 39 .
- Liu , X. , 2007 , “Development and evaluation of 50-mer oligonucleotide arrays for detecting microbial populations in acid mine drainages and bioleaching systems.” Journal of Microbiological Methods , 70 ( 1 ), pp. 165 – 178 .
- Muñoz , P. B. , Miller , J. D. , and Wadsworth , M. E. , 1979 , “Reaction mechanism for the acid ferric sulfate leaching of chalcopyrite.” Metallurgical Transactions B , 10 ( 2 ), pp. 149 – 158 .
- Petersen , J. , Dixon , D. G. , Timmins , M. , and Ruitenberg , R. , 2001 , “Batch reactor studies of the leaching of a pyrite/chalcopyrite concentrate using thermophilic bacteria.” In Biohydrometallurgy: Fundamentals, Technology and Sustainable Development, Part A , ( V. S. T. Ciminelli , and O. Garcia , Eds.), Amsterdam : Elsevier , pp. 525 – 533 .
- Qiu , M. , Xiong , S. , and Zhang , W. , 2006 , “Efficacy of chalcopyrite bioleaching using a pure and a mixed bacterium.” Journal of University of Science and Technology , 13 ( 1 ), pp. 7 – 10 .
- Rao , K. S. , Mishra , A. , Pradhan , D. , Roy Choudhury , G. , Mohapatra , B. K. , Das , T. , Sukla , L. B. , and Mishra , B. K. , 2008 , “Percolation bacterial leaching of low-grade chalcopyrite using acidophilic microorganisms.” Korean Journal of Chemical Engineering , 25 ( 3 ), pp. 524 – 530 .
- Rivadeneira , J. , 2006 , “Introduction. Mining innovation in Latin America report.” Publication via on-line http://www.mininginnovation.cl/content.htm. Santiago, Chile, pp. 6–7.
- Rodriguez , Y. , Ballester , A. , Blázquez , M. L. , González , F. , and Muñoz , J. A. , 2003 , “New information on the chalcopyrite bioleaching mechanism at low and high temperatures.” Hydrometallurgy , 71 ( 1–2 ), pp. 47 – 56 .
- Rohwerder , T. , Gehrke , T. , Kinzler , K. , and Sand , W. , 2003 , “Bioleaching review, part A—progress in bioleaching: fundamentals and mechanisms of bacterial metal sulfide oxidation.” Applied Microbiology and Biotechnology , 63 , pp. 239 – 248 .
- Rojas-Chapana , J. A. , Bärtels , C. C. , Pohlmann , L. , and Tributsch , H. , 1998 , “Co-operative leaching and chemotaxis of Thiobacilli studied with spherical sulphur/sulphide substrates.” Process Biochemistry , 33 , pp. 239 – 248 .
- Sand , W. , Gehrke , T. , Jozsa , P.-G. , and Schippers , A. , 1999 , “Direct versus indirect bioleaching.” In Proceedings of the International Biohydrometallurgy Symposium (IBS-99) , Amsterdam : pp. 27 – 49 .
- Sand , W. , Gehrke , T. , Jozsa , P.-G. , and Schippers , A. , 2001 , “(Bio)chemistry of bacterial leaching: direct vs. indirect bioleaching.” Hydrometallurgy , 59 ( 2–3 ), pp. 159 – 175 .
- Shi , S. , Fang , Z. , and Ni , J. , 2005, “Bioleaching of marmatite flotation concentrate with a moderately thermoacidophilic iron-oxidizing bacterial strain.” Minerals Engineering , 18, pp. 1127–1129.
- Third , K. A. , Cord-Ruwisch , R. , and Watling , H. R. , 2000 , “The role of iron-oxidizing bacteria in stimulation or inhibition of chalcopyrite bioleaching.” Hydrometallurgy , 57 , pp. 225 – 233 .
- Touvinen , O. H. and Ahonen , L. , 1993 , “Alteration in surface and textures of minerals during the bacterial leaching of a complex sulphide ore.” Geomicrobiology Journal , 10 , pp. 207 – 217 .
- Tributsch , H. , 2001 , “Direct versus indirect bioleaching.” Hydrometallurgy , 59 , pp. 177 – 185 .
- Vilcaez , J. , Suto , K. , and Inoue , C. , 2008 , “Bioleaching of chalcopyrite with thermophiles: temperature-ORP dependence.” International Journal of Mineral Processing , 88 , pp. 37 – 44 .
- Vogel , A. I. , 1961 , A Textbook of Quantitative Inorganic Analysis , London : Longman .