References

• Kocabag, D. and Smith, M.R. The Effect of Grinding Media and Galvanic Interaction upon the Flotation of Sulphide Minerals. In Complex Sulphides (edited by A.D.Zunkel, R.S. Boorman, A.E. Morris and R.J. Wesley). The Metallurgical Society, New York, 55-82, 1985.
• Kydros, K.A., Matis, K.A. and Sphatis, P.K. The Use of Nitrogen in Flotation, in Flotation Science and Engineering (Ed. K.A. Matis), Marcel Dekker, New York, 473-491, 1995.
• Johnson, N.W. Oxidation-Reduction Effects in Galena Flotation: Observations on Pb-Zn-Fe Sulphides Separation. Trans. Instn. Min. Metall., 91, C32 - C37, March 1982.
• Johnson, N.W. and Munro, P.D. Overview of Flotation Technology and Plant Practice for Complex Sulphide Ores. Society of Mining, Metallurgy & Exploration, Inc. Vol. 1. 1097-1123, 2002.
• Rao, S.R. and Finch, J.A. Galvanic Interactions Studies on Sulphide Minerals. Canadian Metallurgical Quarterly, Vol. 27, No 4, 253-259. 1988.
• Rao, S.R., Martin, C.J., Sandoval, I., Leroux, M. and Finch, J.A. Possible Applications of Nitrogen Flotation of Pyrite. In Minerals, Materials and Industry (Ed. M.J. Jones) Institute of Mining and Metallurgy, 285-293. 1990.
• Plaskin, I. Interaction of Minerals with Gases and Reagents in Flotation. AIME Trans, Vol. 214, 319. March 1959.
• Peng, Y., Grano, S., Fornasiero, D., Ralston, J. Control of Grinding Conditions in the Flotation of Galena and its Separation from Pyrite. International Journal of Mineral Processing. 70: 67-82. 2003 (a).
• Peng, Y., Grano, S., Ralston, J., Fornasiero, D. Towards Prediction of Oxidation During Grinding I. Galena Flotation. Minerals Engineering, 15: 493-498. 2002.
• Peng, Y., Grano, S., Fornasiero, D., Ralston, J. The Effect of Grinding Conditions on Fine Galena Flotation and Separation from Pyrite. XXII International Mineral processing Congress. Cape Town, South Africa. 2003.
• Seke, M.D. Optimization of the Selective Flotation of Galena and Sphalerite at Rosh Pinah Mine. Ph.D. Thesis, University of Pretoria. South Africa. 2005.
• Kant, C. The Effect of Pulp Potential and Surface Products on Copper Mineral Flotation. M. Eng. Thesis. Mc Gill University, Montreal, Canada. 1997.
• Rao, S.R., Martin, C.J., Sandoval, I., Leroux, M. & Finch, J.A., Possible Application of Nitrogen Flotation of Pyrite; in Minerals, Materials and Industry (Ed. M.J. Jones); Institute of Mining and Metallurgy, 285-293. 1990.
• Yuan, X.M., Palsson, B.I., Forssberg, K.S.E. Flotation of a Complex Sulphide Ore I. Cu/Fe Selectivity Control by Adjusting Pulp Potential with Different Gases. Int. J. Min. Proc., 4, 181-204, 1996.
• Agar, G.E. Copper Sulphide Depression with Thioglycollate or Trithiocarbonate. CIM Bulletin, 43-46. December 1984.
• Delaney, J.F. Separation of Molybdenum Sulfide from Copper Sulfide with Depressants. U.S. Patent No 3,655,044. 1972.
• Bogdanov, O.S. Yeropkin, Yu. I. & Leonov, N. B., The Use of Antioxidants and Nitrogen in Complex Sulphide Ore Separation, XVIII Int. Min. Proc. Congress, Dresden, Vol. II, 83-92, 1991.
• Agar, G.E., Khan, F., Marcovich, B., Mukherjee, A., Shea, B., and Kelly, C. Laboratory Flotation Separation of Inco Bulk Matte. Minerals Engineering. Vol. 9, No 12, 1215-1226, 1996.
• Bulatovic, S.M., Wyslouzil D.M., Selection of Reagent Scheme to Treat Massive Sulphide Ores. In Complex Sulphides (edited by A.D.Zunkel, R.S. Boorman, A.E. Morris and R.J. Wesley). The Metallurgical Society, New York, 101-137, 1985.
• McQuiston, F.W. Pb-Zn-Cu: How Flotation’s Most Difficult Separation Is Being Done. Mining World. 49-52. February, 1958.
• Meech, J.A., Paterson, J.G. Improvements in Copper/Lead Separation with Activated Carbon. Society of Mining Engineers. Transactions, Vol. 264, 1758-1767, 1978.
• Guy, P.J, Trahar, W.J. The Effects of Oxidation and Mineral Interaction on Sulphide Flotation. In: Forssberg, K.S.E. (Ed.), Flotation of Sulphide Minerals, Elsevier, Amsterdam, pp. 91-110, 1985.
• Clark, D.W., Newell, A.J.H., Chilman, G.F., Capps, P.G. Improving Flotation Recovery of Copper Sulphides By Nitrogen Gas and Sulphidisation Conditioning. Minerals Engineering. Vol. 13, No. 12, 1197-1206, 2000.
• Martin, C.J., Rao, S.R., Finch, J.A. & Leroux, M., Complex Sulphide Ore Processing with Pyrite Flotation by Nitrogen; Int. J. Min. Proc., 26, 95-110, 1989.
• Martin, C.J., Finch, J.A. & Rao, S.R., Pilot Flotation Column test of Nitrogen Flotation of Pyrite in Pyrite/Sphalerite Separation; Trans. Inst. Mining & Met., Sec. C, 99, C115-C116, 1990.
• McTavish, S. Flotation Practice at Brunswick Mining. CIM Bulletin, 115-120, February, 1980.
• Ese, H. Reverse Flotation Process Used on Pyrite Complex Ores. In: Forssberg, K.S.E. (Ed.), Flotation of Sulphide Minerals, Elsevier, Amsterdam, 317-334. 1985.
• Tylar, P. The Use of Reverse Cleaning in Testwork on Currawong Copper-Zinc Ore. The AusIMM Proceedings. No1, 1-7, 1999.
• Xu, M., Finch, J.A., Rao, S.R., Lin, D. Reverse Flotation of Pyrite from a Zinc-Concentrate Using Nitrogen. Minerals Engineering, Vol. 8, No 10, 1159-1173. 1995.
• Marsden, J. and House, I. The Chemistry of Gold Extraction. Published by Ellis Horwood, New York, 1992.
• Chryssoulis, S., Venter, D., Dimov, S. On the Floatability of Gold Grains. Proceedings 35^th Annual Meeting of the Canadian Mineral Processors. Paper 28. Otawa, Ontario, Canada. 455-472, 2003.
• Teague, A.J., Van Deventer J.S.J., Swaminathan, C. The Effect of Galvanic Interaction on the Behaviour of Free and Refractory Gold During Froth Flotation. Int. J. Min. Proc., 57, 243-263, 1999.
• Berglund, G. & Forssberg, R.S.E., Influence of Different Gases in Flotation of Sulphide Minerals. In Advances in Coal and Mineral Processing Using Flotation (Eds. S. Chander and R.R. Klimpel), AIME, 71-76,1989.
• Woods, R. Electrochemical Potential Controlling Flotation. Int. J. Min. Proc., 72, 151-162, 2003.
• Gathje, J., Simmons, G. Method for Processing Gold bearing Sulphide Ores Involving Preparation of a Sulphide Concentrate. U.S. Patent 5,653, 945. 1997.

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