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All issues Volume 543 (2024) E3S Web Conf., 543 (2024) 01003 References
Open Access
Issue
E3S Web Conf.
Volume 543, 2024
International Process Metallurgy Conference (IPMC 2023)
Article Number 01003
Number of page(s) 6
Section Mineral Processing and Coal Upgrading
DOI https://doi.org/10.1051/e3sconf/202454301003
Published online 03 July 2024
  1. Aslam, I. N., Albijanic, B., McGrath, T., Tadesse, B., Dyer, L., Avelar, E., . . . Revell, P. (2021). Development of Gravity-Based Amenability Test for Coarse Gangue Rejection of Base Metal Ores. Western Australia School of Mines, Minerals, Energy, and Chemical Engineering. Kalgoorlie: Curtin University (Unpublished). [Google Scholar]
  2. Ballantyne, G., Hilden, M., & Powell, M. (2012). Early Rejection of Gangue - How Much Energy Will It Cost to Save Energy? In B. Wills (Ed.), Communution '12: 8th International Comminution Symposium (pp. 1-12). Cape Town: Mineral Engineering. [Google Scholar]
  3. Borg, G., Scharfe, F., & Kamradt, A. (2016, January). High-Velocity Comminution of Massive Sulphide Ores by the Vero Liberator Technology for More Energy Efficient Size Reduction and Particle Liberation. World of Mining - Surface & Underground, 68(2016), 45-52. [Google Scholar]
  4. Bowman, D. J., & Bearman, R. A. (2014, January 20). Coarse Waste Rejection through Size Based Separation. Minerals Engineering, 62(2014), 102-110. [CrossRef] [Google Scholar]
  5. Burt, R. (1999, July 21). The Role of Gravity Concentration in Modern Processing Plants. Minerals Engineering, 12 (11)(1999), 1291-1300. [CrossRef] [Google Scholar]
  6. Carrasco, C., Keeney, L., & Napier-Munn, T. J. (2015, October 14). Methodology to develop a coarse liberation model based on preferential grade by size responses. Minerals Engineering, 86(2016), 149-155. [CrossRef] [Google Scholar]
  7. Falconer, A. (2002, October 15). Gravity Separation: Old Technique/New Methods. Physical Separation in Science and Engineering, 12 (1)(2003), 31-48. [CrossRef] [Google Scholar]
  8. Franks, G. V., Firdaus, M., & Oshitani, J. (2012, October 15). Copper Ore Density Separations by Float/Sink in a Dry Sand Fluidised Bed Dense Medium. International Journal of Mineral Processing, 121(2013), 12-20. [CrossRef] [Google Scholar]
  9. Franks, G. V., Forbes, E., Oshitani, J., & Batterham, R. J. (2014, March 17). Economic, Water and Energy Evaluation of Early Rejection of Gangue from Copper Ores Using a Dry Sand Fluidised Bed Separator. International Journal of Mineral Processing, 137(2015), 43-51. [CrossRef] [Google Scholar]
  10. Jeswiet, J., & Szekeres, A. (2016). Energy Consumption in Mining Comminution. 23rd CIRP Conference on Life Cycle Engineering. 48, pp. 140-145. Ontario: Elsevier. [Google Scholar]
  11. Klein, B., Dunbar, W. S., & Scoble, M. (2012, January). Integrating mining and mineral processing for advanced mining systems. Advanced Systems and Technologies, 95, 63-65. Vancouver, British Columbia, Canada: CIM. [Google Scholar]
  12. McGrath, T. D., Eksteen, J. J., & Bode, P. (2017, September 18). Assessing the Amenability of a Free Milling Gold Ore to Coarse Particle Gangue Rejection. Minerals Engineering, 120(2018), 110-117. [CrossRef] [Google Scholar]
  13. Salter, J. D., & Wyatt, N. P. (1991). Sorting in the Minerals Industry: Past, Present, and Future. Mineral Engineering, 4(1991), 779-796. [CrossRef] [Google Scholar]
  14. Stadler, A., & Boucaut, S. (2015, August). Unlocking the Energy Productivity Value Proposition. (AusIMM Bulletin) Retrieved May 19, 2018, from AusIMM Bulletin: https://www.ausimmbulletin.com/feature/unlocking-the-energy-productivity-value-proposition/ [Google Scholar]
  15. Walters, S. G. (2016). Driving Productivity by Increasing Feed Quality through Application of Innovative Grade Engineering® Technologies. CRC ORE. Kenmore: CRC ORE. [Google Scholar]
  16. Wilkie, G. J. (2016). Rapid Assessment of the Sorting Potential of Copper Porphyry Ores through Modelling of Textures and Grade Distributions. The University of Queensland, Sustainable Mineral Institute. Indooroopilly: Julius Kruttschnitt Mineral Research Center. [Google Scholar]
  17. Wills, B. A., & Finch, J. (2016). Dense Medium Separation (DMS). In B.A. Wills, & J. Finch, Wills' Mineral Processing Technology (8th Edition ed., pp. 245-264). Boston, Massachusetts, USA: Elsevier Ltd. [CrossRef] [Google Scholar]

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