XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 3807
Davaanyam, Z. 2015. Piston Press Test Procedures for
Predicting Energy–Size Reduction of High Pressure
Grinding Rolls. University of British Columbia, 306.
Davaanyam, Z., Klein, B., Nadolski, S., &Kumar, A.
2013. A New Bench Scale Test for Determining the
Energy Requirements of an HPGR. Material Science
and Technology.
Gagnon, C., Rosa, A., Makni, S., McIvor, R., Klein, B.,
Kumar, A., Wang, F., Gong, D., &Saud, C. 2021.
Replacement of Wet Ball Milling With High-pressure
Grinding ahead of Mineral Separation. University of
British Columbia, 9.
Ghorbani, Y., Mainza, A. N., Petersen, J., Becker, M.,
Franzidis, J.-P., &Kalala, J. T. 2013. Investigation of
particles with high crack density produced by HPGR
and its effect on the redistribution of the particle size
fraction in heaps. Minerals Engineering, 44–51. doi:
10.1016/j.mineng.2012.08.010.
Gognon, C., Rosa, A., Makni, S., McIvor, R., Klein, B.,
Kumar, A., Wang, F., Gong, D., &Saud, C. 2022.
Replacement of Wet Ball Millings with High Pressure
Grinding Ahead of Mineral Separation. Canadian
Milling Processors Operators Conference, 108–120.
Haines, C., &Geoghegan, C. 2023. Comminution
Efficiency Comparison: Cadia’s HPGR–Ball Mill vs
HPGR–SAB Circuits. SAG Proceedings.
Klymowsky, R. 2003. High Pressure Grinding Rolls for
Minerals. ThyssenKrupp Polysius.
Klymowsky, R. 2006. An Overview of HPGR Technology.
SAG Proceedings, 8.
Kumar, A., Wang, C., Gong, D., Saud, C., Pamparana, G.,
&Klein, B. 2023. Development of Locked-cycle piston
press test procedure to simulate closed circuit HPGR
comminution. Minerals Engineering, 201, 108160. doi:
10.1016/j.mineng.2023.108160.
Lovatt, I. A., Becker, M., Putland, B., Radford, R., &
Robinson, J. 2023. Trade-Off Realities in HPGR vs.
SAG Milling—A Practical Comparison of Tropicana
and Gruyere Comminution Circuits. SAG Proceedings.
Lynch, A. J., &Rowland, C. A. 2005. The History
of Grinding. Society for Mining, Metallurgy &
Exploration, Incorporated.
McIvor, R. 1997. High Pressure Grinding Rolls—A Review.
SAG Proceedings.
Morrell, S. 2022b. Helping to reduce mining industry
carbon emissions: A step-by-step guide to sizing and
selection of energy efficient high pressure grinding
rolls circuits. Minerals Engineering, 179, 107431. doi:
10.1016/j.mineng.2022.107431.
Napier-Munn, T. 2015. Is progress in energy-efficient com-
minution doomed? Minerals Engineering, 73:1–6. doi:
10.1016/j.mineng.2014.06.009.
Napier-Munn, T., Morrell, S., Morrison, R., &Kojovic, T.
(1996). Mineral comminution circuits: Their operation
and optimization. Julius Kruttschnitt Mineral Research
Center, The University of Queensland, 413.
Pamparana, G., &Klein, B. 2021. A methodology to
predict the HPGR operational gap by using pis-
ton press tests. Minerals Engineering. doi: 10.1016
/j.mineng.2021.106875.
Patzelt, N., Klymowsky, R., Burchardt, E., &Knecht, J.
2001. High Pressure Grinding Rolls in AG/SAG Mill
Circuits—The Next Step in the Evolution of Grinding
Plants for the New Millenium. SAG Proceedings.
Patzelt, N., Klymowsky, R. I. B., Knecht, J., &Burchardt, E.
2006. High-Pressure Grinding Rolls for Gold/
Copper Applications. Society for Mining, Metallurgy &
Exploration.
Rosario, P. P. 2017. Technical and economic assessment of a
non-conventional HPGR circuit. Minerals Engineering,
103–104:102–111. doi: 10.1016/j.mineng.2016
.10.019.
Rule, C. M., Minnaar, D. M., &Sauermann, G. M. 2008.
HPGR -revolution in platinum? The Southern African
Institute of Mining and Metallurgy, 108.
Saramak, D., Tumidajski, T., Bro, M., Gawenda, T., &
Naziemiec, A. 2010. Aspects of comminution flow-
sheets design in processing of mineral raw materials.
Mineral Resources Management.
Schönert, K. 1988. A first survey of grinding with high-
compression roller mills. International Journal
of Mineral Processing, 22(1–4):401–412. doi:
10.1016/0301-7516(88)90075-0.
Seidel, J., Logan, T., LeVier, K., &Veillette, G. 2006. Case
Study—Investigation of HPGR Suitability for Two
Gold/Copper Prospects. SAG Proceedings, 7.
Semsari Parapari, P., Parian, M., &Rosenkranz, J. 2020.
Breakage process of mineral processing comminu-
tion machines – An approach to liberation. Advanced
Powder Technology, 31(9):3669–3685. doi: 10.1016
/j.apt.2020.08.005.
Staples, P., Lane, G., Braun, R., Foggiatto, B., &Bueno, M.
P. 2015. Are SAG Mills Losing Market Confidence?
SAG Proceedings, 17.
Starkey, J., Moussaid, H., Boucher, D., &Bobicki, E.
R. (2022). Keys to best practice comminution.
Minerals Engineering, 180, 107432. doi: 10.1016
/j.mineng.2022.107432.
Davaanyam, Z. 2015. Piston Press Test Procedures for
Predicting Energy–Size Reduction of High Pressure
Grinding Rolls. University of British Columbia, 306.
Davaanyam, Z., Klein, B., Nadolski, S., &Kumar, A.
2013. A New Bench Scale Test for Determining the
Energy Requirements of an HPGR. Material Science
and Technology.
Gagnon, C., Rosa, A., Makni, S., McIvor, R., Klein, B.,
Kumar, A., Wang, F., Gong, D., &Saud, C. 2021.
Replacement of Wet Ball Milling With High-pressure
Grinding ahead of Mineral Separation. University of
British Columbia, 9.
Ghorbani, Y., Mainza, A. N., Petersen, J., Becker, M.,
Franzidis, J.-P., &Kalala, J. T. 2013. Investigation of
particles with high crack density produced by HPGR
and its effect on the redistribution of the particle size
fraction in heaps. Minerals Engineering, 44–51. doi:
10.1016/j.mineng.2012.08.010.
Gognon, C., Rosa, A., Makni, S., McIvor, R., Klein, B.,
Kumar, A., Wang, F., Gong, D., &Saud, C. 2022.
Replacement of Wet Ball Millings with High Pressure
Grinding Ahead of Mineral Separation. Canadian
Milling Processors Operators Conference, 108–120.
Haines, C., &Geoghegan, C. 2023. Comminution
Efficiency Comparison: Cadia’s HPGR–Ball Mill vs
HPGR–SAB Circuits. SAG Proceedings.
Klymowsky, R. 2003. High Pressure Grinding Rolls for
Minerals. ThyssenKrupp Polysius.
Klymowsky, R. 2006. An Overview of HPGR Technology.
SAG Proceedings, 8.
Kumar, A., Wang, C., Gong, D., Saud, C., Pamparana, G.,
&Klein, B. 2023. Development of Locked-cycle piston
press test procedure to simulate closed circuit HPGR
comminution. Minerals Engineering, 201, 108160. doi:
10.1016/j.mineng.2023.108160.
Lovatt, I. A., Becker, M., Putland, B., Radford, R., &
Robinson, J. 2023. Trade-Off Realities in HPGR vs.
SAG Milling—A Practical Comparison of Tropicana
and Gruyere Comminution Circuits. SAG Proceedings.
Lynch, A. J., &Rowland, C. A. 2005. The History
of Grinding. Society for Mining, Metallurgy &
Exploration, Incorporated.
McIvor, R. 1997. High Pressure Grinding Rolls—A Review.
SAG Proceedings.
Morrell, S. 2022b. Helping to reduce mining industry
carbon emissions: A step-by-step guide to sizing and
selection of energy efficient high pressure grinding
rolls circuits. Minerals Engineering, 179, 107431. doi:
10.1016/j.mineng.2022.107431.
Napier-Munn, T. 2015. Is progress in energy-efficient com-
minution doomed? Minerals Engineering, 73:1–6. doi:
10.1016/j.mineng.2014.06.009.
Napier-Munn, T., Morrell, S., Morrison, R., &Kojovic, T.
(1996). Mineral comminution circuits: Their operation
and optimization. Julius Kruttschnitt Mineral Research
Center, The University of Queensland, 413.
Pamparana, G., &Klein, B. 2021. A methodology to
predict the HPGR operational gap by using pis-
ton press tests. Minerals Engineering. doi: 10.1016
/j.mineng.2021.106875.
Patzelt, N., Klymowsky, R., Burchardt, E., &Knecht, J.
2001. High Pressure Grinding Rolls in AG/SAG Mill
Circuits—The Next Step in the Evolution of Grinding
Plants for the New Millenium. SAG Proceedings.
Patzelt, N., Klymowsky, R. I. B., Knecht, J., &Burchardt, E.
2006. High-Pressure Grinding Rolls for Gold/
Copper Applications. Society for Mining, Metallurgy &
Exploration.
Rosario, P. P. 2017. Technical and economic assessment of a
non-conventional HPGR circuit. Minerals Engineering,
103–104:102–111. doi: 10.1016/j.mineng.2016
.10.019.
Rule, C. M., Minnaar, D. M., &Sauermann, G. M. 2008.
HPGR -revolution in platinum? The Southern African
Institute of Mining and Metallurgy, 108.
Saramak, D., Tumidajski, T., Bro, M., Gawenda, T., &
Naziemiec, A. 2010. Aspects of comminution flow-
sheets design in processing of mineral raw materials.
Mineral Resources Management.
Schönert, K. 1988. A first survey of grinding with high-
compression roller mills. International Journal
of Mineral Processing, 22(1–4):401–412. doi:
10.1016/0301-7516(88)90075-0.
Seidel, J., Logan, T., LeVier, K., &Veillette, G. 2006. Case
Study—Investigation of HPGR Suitability for Two
Gold/Copper Prospects. SAG Proceedings, 7.
Semsari Parapari, P., Parian, M., &Rosenkranz, J. 2020.
Breakage process of mineral processing comminu-
tion machines – An approach to liberation. Advanced
Powder Technology, 31(9):3669–3685. doi: 10.1016
/j.apt.2020.08.005.
Staples, P., Lane, G., Braun, R., Foggiatto, B., &Bueno, M.
P. 2015. Are SAG Mills Losing Market Confidence?
SAG Proceedings, 17.
Starkey, J., Moussaid, H., Boucher, D., &Bobicki, E.
R. (2022). Keys to best practice comminution.
Minerals Engineering, 180, 107432. doi: 10.1016
/j.mineng.2022.107432.