MINERÍA la mejor puerta de acceso al sector minero MINERÍA / SEPTIEMBRE 2022 / EDICIÓN 540 58 4. Miettinen, T., Ralston, J., Fornasiero, D. The Limits of Fine Particle Flotation. Minerals Engineering (23), pp. 420–437. 2010. 5. Gontijo, C., Fornasiero, D., Ralston, J. The Limits of Fine and Coarse Particle Flotation. The Canadian Journal of Chemical Engineering. Vol 85, pp. 739747. 2007. 6. Crawford, R. and J. Ralston. The Influence of Particle Size and Contact Angle in Mineral Flotation. International Journal of Mineral Processing. Vol 23, 1, pp. 1-24. 1988. 7. Fornasiero, D., Filipov, L. O. Innovation in the Flotation of Fine and Coarse Particles. Journal of Physics: Conf. Series 879 012002, 2017. 8. Adams, M. Gold Ore Processing – Project Development and Operations. Elsevier, 2016. 9. Chryssoulis, S.L., Dimov, S.S. Optimized Conditions for Selective Gold Flotation by ToF-SIMS and ToFLIMS. Applied Surface Science 231–232, pp. 265– 268. 2004. 10. Marsden, J. The Chemistry of Gold Extraction. Published by the Society for Mining, Metallurgy, and Exploration, Inc. 2009. 11. Klimpel, L.L. Industrial Experiences in the Evaluation of Various Flotation Reagent Schemes for the Recovery of Gold. Minerals and Metallurgical Processing. Vol. 16. No 1. February 1989. 12. Knipe, W., Chryssoulis, S.L., Clements, B. Flaky Gold: Problems with Recovery and Mineralogical Quantification. JOM, pp 58-62. July 2004. 13. Wills, B., Finch, J. Will’s Mineral Processing Technology. Eighth Edition. Elsevier. 2016. 14. Tungpalan, K., Wightman, E., Manlapig, E., Keeney, [3]. Darabi, H., Koleini, J., Deglonb, D., Rezai, B., Abdollahy, M. 2020. Investigation of Bubble-Particle Attachment, Detachment and Collection Efficiencies in a Mechanical Flotation Cell. Powder Technology (375), pp 109-123. [4]. Miettinen, T., Ralston, J., Fornasiero, D. 2010. The Limits of Fine Particle Flotation. Minerals Engineering (23), pp. 420–437. [5]. Gontijo, C., Fornasiero, D., Ralston, J. 2007. The Limits of Fine and Coarse Particle Flotation. The Canadian Journal of Chemical Engineering. Vol 85, pp. 739-747. [6]. Crawford, R. and J. Ralston. 1988. The Influence of Particle Size and Contact Angle in Mineral Flotation. International Journal of Mineral Processing. Vol 23, 1, pp. 1-24. [7]. Fornasiero, D., Filipov, L. O. 2017. Innovation in the Flotation of Fine and Coarse Particles. Journal of Physics: Conf. Series 879 012002. [8]. Adams, M. 2016. Gold Ore Processing – Project Development and Operations. Elsevier. [9]. Chryssoulis, S.L., Dimov, S.S. 2004. Optimized Conditions for Selective Gold Flotation by ToF-SIMS and ToFLIMS. Applied Surface Science 231–232, pp. 265–268. [10]. Marsden, J. 2009. The Chemistry of Gold Extraction. Published by the Society for Mining, Metallurgy, and Exploration, Inc. [11]. Klimpel, L.L. 1989. Industrial Experiences in the Evaluation of Various Flotation Reagent Schemes for the Recovery of Gold. Minerals and Metallurgical Processing. Vol. 16. No 1. February. [12]. Knipe, W., Chryssoulis, S.L., Clements, B. 2004. Flaky Gold: Problems with Recovery and Mineralogical Quantification. JOM, pp 58-62. July. Tabla 1. Resultados de la Planta de Freeport Indonesia Antes y Después de Instalar la Celda Flash[30]
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