XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 109
Andre F.P., Antonio C. and Shi F. 2023. Optimising the
pre-concentration performance of a continuous
high voltage pulse system for mining operations. In
Proceedings of the 26th World Mining Congress, 26–29
June, Brisbane, Australia, p. 2786–2791.
Austin, L.G. 1971. A review introduction to the mathemat-
ical description of grinding, Powder Technology 5:1–17.
Batterham, R. and Moodie, J.P. 2005. Flotation in the
Minerals Industry—Some observations. In Proceedings
of the Centenary of Flotation Symposium, 6–9 June,
Brisbane, Australia, p3–5.
Battersby, M,, Battersby, RM., Flatman, S., Imhof, R.,
Sprenger, H. and Bragado, T. 2011. Recovery of ultra
fines using Imhoflot pneumatic flotation—Two pilot
plant case studies recovering nickel and zinc from tail-
ings streams. In MEI Conference 2011.
Bracey R.J., Weerasekara N.S. and Powell M.S. 2016.
Performance evaluation of the novel multi-shaft
mill using DEM modelling, Minerals Engineering
98:251–260. ISSN 0892-6875. doi: 10.1016/j.
mineng.2016.09.007.
Bracey R.J., Powell M.S and Friedland, B. 2018. Multishaft
mill scoping study on kimberlite ore, In Comminution
2018, Cape Town, South Africa, 16–19 April. ISBN:
978-1-5108-8378-9.
Brito e Abreu, S., Brien, C. and Skinner, W. 2010. ToF-SIMS
as a New Method to Determine the Contact Angle of
Mineral Surfaces. Langmuir 26(11):8122–8130.
Carpenter, J.L., Zhou, J., Iveson, S.M. and Galvin, K.P.
2019. Gravity separation in the REFLUX ™ Classifier
in the presence of slimes, Minerals Engineering, 143,
ISSN 0892-6875.
Chew, D., Drost, K., March, J.H. and Petrus, J.A. 2021.
LA-ICP-MS imaging in the geoscences and its appli-
cations to geochronology. Chemical Geology, 559,
119917.
Cook, B.K. and Gibson, C.E. 2023. A Review of Fatty Acid
Collectors: Implications for Spodumene Flotation.
Minerals, 13(2), 212.
Crompton, L.J., Islam, M.T., and Galvin, K.P. 2022.
Investigation of Internal Classification in Coarse Particle
Flotation of Chalcopyrite Using the CoarseAIRTM.
Minerals, 12(6), Article 6. doi: 10.3390/min12060783.
Derjaguin, B.V. and Landau, L. 1941. Theory of stability
of strongly charged lyophobic sols and the adhesion of
strongly charged particles in solution of electrolytes.
Acta Physiochim, 14, 633 -662.
Dohm, E., Fayed, H. and Van Wagoner, R. 2022.
Metallurgical testing and CFD simulation of
StackCell(R) SC-50 high-intensity flotation machine.
Minerals Engineering 181 107517.
EDS Brochure 2022, EDS Multishaft mills, EDS-Brochure-
2022-Digital.pdf (Accessed April, 2024).
Ekmekçi, Z. and Demirel, H. 1997. Effects of galvanic
interaction on collectorless flotation behaviour of chal-
copyrite and pyrite. International Journal of Mineral
Processing, 52(1), 31–48.
Filippov, L., Farrokhpay, S., Lyo, L. and Filippova, I. 2019.
Spodumene Flotation Mechanism. Minerals 9(6).
Forbes, E., Brito e Abreu, S., Tungpalan, K., Sashigunan,
R., Runge, K. and O’Donnell, R. 2022. Effect of
residual reagents on chalcopyrite losses at Mount Isa
Mines copper Operation: Part II—evaluation of flota-
tion mechanisms. Minerals Engineering, 185, 107687.
Fosu, S., Skinner, W. and Zanin, M. 2015. Detachment
of coarse composite sphalerite particles from bubbles
in flotation: Influence of xanthate collector type and
concentration. Minerals Engineering 71:73–84.
Frausto, J.J., Ballantyne, G.R., Runge, K., Powell, M.S. and
Cruz, R. 2017. The impact of classification efficiency
on comminution and flotation circuit performance. In
Metallurgical Plant Design and Operating Strategies
-World’s Best Practice (MetPlant 2017) AusIMM,
Perth, Australia, p. 298–314.
Forbes, E., Brito e Abreu, S., Tungpalan, K., Sashigunan, R.,
Runge, K. and O’Donnell, R. 2022. Effect of residual
reagents on chalcopyrite losses at Mount Isa Mines
Copper Operation: part II—evaluation of flotation
mechanisms. Minerals Engineering, 185:1–12. doi:
10.1016/j.mineng.2022.107687.
Gerold, C., Schmitz, C., Stapelmann, M. and Dardemann, F.
2012. Latest installations and developments of Loesche
Vertical-Roller-Mills in the ore industry, In Proceedings
of the XXVI International Mineral processing Congress,
New Dehli, India, 24–28 September.
Guang Ming, L., Hong En, Z. and Shinnosuke, U. 1992.
Depression of arsenopyrite in alkaline medium.
International Journal of Mineral Processing, 34(3),
253–257.
Guldris Leon, L,, Hogmalm, K.J. and Bengtsson, M. 2020.
Understanding Mineral Liberation during Crushing
Using Grade-by-Size Analysis—A Case Study of the
Penuota Sn-Ta Mineralization, Spain. Minerals 10,
164. doi: 10.3390/min10020164.
Andre F.P., Antonio C. and Shi F. 2023. Optimising the
pre-concentration performance of a continuous
high voltage pulse system for mining operations. In
Proceedings of the 26th World Mining Congress, 26–29
June, Brisbane, Australia, p. 2786–2791.
Austin, L.G. 1971. A review introduction to the mathemat-
ical description of grinding, Powder Technology 5:1–17.
Batterham, R. and Moodie, J.P. 2005. Flotation in the
Minerals Industry—Some observations. In Proceedings
of the Centenary of Flotation Symposium, 6–9 June,
Brisbane, Australia, p3–5.
Battersby, M,, Battersby, RM., Flatman, S., Imhof, R.,
Sprenger, H. and Bragado, T. 2011. Recovery of ultra
fines using Imhoflot pneumatic flotation—Two pilot
plant case studies recovering nickel and zinc from tail-
ings streams. In MEI Conference 2011.
Bracey R.J., Weerasekara N.S. and Powell M.S. 2016.
Performance evaluation of the novel multi-shaft
mill using DEM modelling, Minerals Engineering
98:251–260. ISSN 0892-6875. doi: 10.1016/j.
mineng.2016.09.007.
Bracey R.J., Powell M.S and Friedland, B. 2018. Multishaft
mill scoping study on kimberlite ore, In Comminution
2018, Cape Town, South Africa, 16–19 April. ISBN:
978-1-5108-8378-9.
Brito e Abreu, S., Brien, C. and Skinner, W. 2010. ToF-SIMS
as a New Method to Determine the Contact Angle of
Mineral Surfaces. Langmuir 26(11):8122–8130.
Carpenter, J.L., Zhou, J., Iveson, S.M. and Galvin, K.P.
2019. Gravity separation in the REFLUX ™ Classifier
in the presence of slimes, Minerals Engineering, 143,
ISSN 0892-6875.
Chew, D., Drost, K., March, J.H. and Petrus, J.A. 2021.
LA-ICP-MS imaging in the geoscences and its appli-
cations to geochronology. Chemical Geology, 559,
119917.
Cook, B.K. and Gibson, C.E. 2023. A Review of Fatty Acid
Collectors: Implications for Spodumene Flotation.
Minerals, 13(2), 212.
Crompton, L.J., Islam, M.T., and Galvin, K.P. 2022.
Investigation of Internal Classification in Coarse Particle
Flotation of Chalcopyrite Using the CoarseAIRTM.
Minerals, 12(6), Article 6. doi: 10.3390/min12060783.
Derjaguin, B.V. and Landau, L. 1941. Theory of stability
of strongly charged lyophobic sols and the adhesion of
strongly charged particles in solution of electrolytes.
Acta Physiochim, 14, 633 -662.
Dohm, E., Fayed, H. and Van Wagoner, R. 2022.
Metallurgical testing and CFD simulation of
StackCell(R) SC-50 high-intensity flotation machine.
Minerals Engineering 181 107517.
EDS Brochure 2022, EDS Multishaft mills, EDS-Brochure-
2022-Digital.pdf (Accessed April, 2024).
Ekmekçi, Z. and Demirel, H. 1997. Effects of galvanic
interaction on collectorless flotation behaviour of chal-
copyrite and pyrite. International Journal of Mineral
Processing, 52(1), 31–48.
Filippov, L., Farrokhpay, S., Lyo, L. and Filippova, I. 2019.
Spodumene Flotation Mechanism. Minerals 9(6).
Forbes, E., Brito e Abreu, S., Tungpalan, K., Sashigunan,
R., Runge, K. and O’Donnell, R. 2022. Effect of
residual reagents on chalcopyrite losses at Mount Isa
Mines copper Operation: Part II—evaluation of flota-
tion mechanisms. Minerals Engineering, 185, 107687.
Fosu, S., Skinner, W. and Zanin, M. 2015. Detachment
of coarse composite sphalerite particles from bubbles
in flotation: Influence of xanthate collector type and
concentration. Minerals Engineering 71:73–84.
Frausto, J.J., Ballantyne, G.R., Runge, K., Powell, M.S. and
Cruz, R. 2017. The impact of classification efficiency
on comminution and flotation circuit performance. In
Metallurgical Plant Design and Operating Strategies
-World’s Best Practice (MetPlant 2017) AusIMM,
Perth, Australia, p. 298–314.
Forbes, E., Brito e Abreu, S., Tungpalan, K., Sashigunan, R.,
Runge, K. and O’Donnell, R. 2022. Effect of residual
reagents on chalcopyrite losses at Mount Isa Mines
Copper Operation: part II—evaluation of flotation
mechanisms. Minerals Engineering, 185:1–12. doi:
10.1016/j.mineng.2022.107687.
Gerold, C., Schmitz, C., Stapelmann, M. and Dardemann, F.
2012. Latest installations and developments of Loesche
Vertical-Roller-Mills in the ore industry, In Proceedings
of the XXVI International Mineral processing Congress,
New Dehli, India, 24–28 September.
Guang Ming, L., Hong En, Z. and Shinnosuke, U. 1992.
Depression of arsenopyrite in alkaline medium.
International Journal of Mineral Processing, 34(3),
253–257.
Guldris Leon, L,, Hogmalm, K.J. and Bengtsson, M. 2020.
Understanding Mineral Liberation during Crushing
Using Grade-by-Size Analysis—A Case Study of the
Penuota Sn-Ta Mineralization, Spain. Minerals 10,
164. doi: 10.3390/min10020164.