2982 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Chen, J., Chimonyo, W., &Peng, Y. (2022). Flotation
behaviour in reflux flotation cell–A critical review.
Minerals Engineering, 181, 107519.
Cole, M. J., Galvin, K. P., &Dickinson, J. E. (2021).
Maximizing recovery, grade and throughput in a single
stage Reflux Flotation Cell. Minerals Engineering, 163,
106761. doi: 10.1016/j.mineng.2020.106761.
Dobby, G. S., &Finch, J. A. (1991). Column flotation:
A selected review, part II. Minerals Engineering, 4(7–
11), 911–923.
Finch, J. A., &Dobby, G. S. (1991). Column flotation: A
selected review. Part I. International journal of mineral
processing, 33(1–4), 343–354.
Dickinson, J. E., &Galvin, K. P. (2014). Fluidized bed
desliming in fine particle flotation – Part I. Chemical
Engineering Science, 108, 283–298. doi: 10.1016
/j.ces.2013.11.006.
Dickinson, J. E., Jiang, K., &Galvin, K. P. (2014). Fast
flotation of fine coal. In Chemeca 2014: Processing
excellence Powering our future. Engineers Australia.
doi/10.3316/informit.715255050857469.
Dickinson, J. E., Jiang, K., &Galvin, K. P. (2015).
Fast flotation of coal at low pulp density using
the Reflux Flotation Cell. Chemical Engineering
Research and Design, 101, 74–81. doi: 10.1016
/j.cherd.2015.04.006.
Dickinson, J., Dabrowski, B., Lelinski, D., Christodoulou,
L., &Galvin, K. (2019). Pilot trial of a new high rate
flotation machine. Procemin-Geomet: Santiago, Chile.
Drzymala, J. (2007). Mineral processing. Foundations of
Theory and Practice of Minerallurgy, 381–382.
Galvin, K. P., &Dickinson, J. E. (2014). Fluidized bed
desliming in fine particle flotation–part II: flotation
of a model feed. Chemical Engineering Science, 108,
299–309.
Guner, M.K., Hassanzadeh, A., Vinnett, L., Yianatos, J.
Kowalczuk, P.B. (2022) Residence time distribution
measurements and modeling of lab-scale Imhoflot ™
and REFLUX ™ pneumatic flotation cells, 17th
International Mineral Processing Symposium, Istanbul,
Turkey, 393–401.
Guner, M. K., Hassanzadeh, A., Vinnett, L., Yianatos, J., &
Kowalczuk, P. B. (2023). Effects of operating param-
eters on residence time distribution in a REFLUX flo-
tation cell. Minerals Engineering, 204, 108439.
Harbort, G., De Bono, S., Carr, D., &Lawson, V. (2003).
Jameson Cell fundamentals––a revised perspective.
Minerals Engineering, 16(11), 1091–1101.
Hassanzadeh, A., Safari, M., Hoang, D. H., Khoshdast, H.,
Albijanic, B., &Kowalczuk, P. B. (2022). Technological
assessments on recent developments in fine and coarse
particle flotation systems. Minerals Engineering, 180,
107509.
Jera, T. M., &Bhondayi, C. (2022). A Review on Froth
Washing in Flotation. Minerals, 12(11), 1462.
Jiang, K., Dickinson, J. E., &Galvin, K. P. (2014).
Maximizing bubble segregation at high liquid fluxes.
Advanced Powder Technology, 25(4), 1205–1211.
Ireland, P. M., &Jameson, G. J. (2007). Liquid transport
in a multi-layer froth. Journal of colloid and interface
science, 314(1), 207–213.
Ireland, P. M., Neville, F., Dickinson, J. E., &Galvin, K. P.
(2019). Enhancing extraction in ion flotation using the
boycott effect. Chemical Engineering and Processing-
Process Intensification, 145, 107678.
Mesa, D., &Brito-Parada, P. R. (2019). Scale-up in froth
flotation: A state-of-the-art review. Separation and
purification technology, 210, 950–962.
Napier-Munn, T. J. (2014). Statistical Methods for Mineral
Engineers. JKMRC, Australia.
Mudd, G. M. (2010). The environmental sustainability
of mining in Australia: key mega-trends and looming
constraints. Resources Policy, 35(2), 98–115.
Öteyaka, B., &Soto, H. (1995). Modelling of negative
bias column for coarse particles flotation. Minerals
Engineering, 8(1–2), 91–100.
Parkes, S., Wang, P., &Galvin, K. P. (2024). Investigating
the system flotation kinetics of fine chalcopyrite in
a REFLUX ™ flotation cell: Part II low-grade ores.
Minerals Engineering, 207, 108548.
Şahbaz, O., Öteyaka, B., Kelebek, Ş., Uçar, A., &Demir,
U. (2008). Separation of unburned carbonaceous mat-
ter in bottom ash using Jameson cell. Separation and
Purification Technology, 62(1), 103–109.
Tabosa, E. O., Runge, K., &Holtham, P. (2012). The effect
of cell hydrodynamics on flotation kinetics (Doctoral
dissertation, University of Queensland).
Wang, L., Peng, Y., Runge, K., &Bradshaw, D. (2015). A
review of entrainment: Mechanisms, contributing fac-
tors and modelling in flotation. Minerals Engineering,
70, 77–91.
Wang, P., Yvon, M., Parkes, S., &Galvin, K. P. (2024).
Enhancing nickel grade and recovery with counter-
current washing of the concentrated bubbly-zone of
a single stage REFLUX ™ Flotation Cell. Minerals
Engineering, 206, 108506.
Chen, J., Chimonyo, W., &Peng, Y. (2022). Flotation
behaviour in reflux flotation cell–A critical review.
Minerals Engineering, 181, 107519.
Cole, M. J., Galvin, K. P., &Dickinson, J. E. (2021).
Maximizing recovery, grade and throughput in a single
stage Reflux Flotation Cell. Minerals Engineering, 163,
106761. doi: 10.1016/j.mineng.2020.106761.
Dobby, G. S., &Finch, J. A. (1991). Column flotation:
A selected review, part II. Minerals Engineering, 4(7–
11), 911–923.
Finch, J. A., &Dobby, G. S. (1991). Column flotation: A
selected review. Part I. International journal of mineral
processing, 33(1–4), 343–354.
Dickinson, J. E., &Galvin, K. P. (2014). Fluidized bed
desliming in fine particle flotation – Part I. Chemical
Engineering Science, 108, 283–298. doi: 10.1016
/j.ces.2013.11.006.
Dickinson, J. E., Jiang, K., &Galvin, K. P. (2014). Fast
flotation of fine coal. In Chemeca 2014: Processing
excellence Powering our future. Engineers Australia.
doi/10.3316/informit.715255050857469.
Dickinson, J. E., Jiang, K., &Galvin, K. P. (2015).
Fast flotation of coal at low pulp density using
the Reflux Flotation Cell. Chemical Engineering
Research and Design, 101, 74–81. doi: 10.1016
/j.cherd.2015.04.006.
Dickinson, J., Dabrowski, B., Lelinski, D., Christodoulou,
L., &Galvin, K. (2019). Pilot trial of a new high rate
flotation machine. Procemin-Geomet: Santiago, Chile.
Drzymala, J. (2007). Mineral processing. Foundations of
Theory and Practice of Minerallurgy, 381–382.
Galvin, K. P., &Dickinson, J. E. (2014). Fluidized bed
desliming in fine particle flotation–part II: flotation
of a model feed. Chemical Engineering Science, 108,
299–309.
Guner, M.K., Hassanzadeh, A., Vinnett, L., Yianatos, J.
Kowalczuk, P.B. (2022) Residence time distribution
measurements and modeling of lab-scale Imhoflot ™
and REFLUX ™ pneumatic flotation cells, 17th
International Mineral Processing Symposium, Istanbul,
Turkey, 393–401.
Guner, M. K., Hassanzadeh, A., Vinnett, L., Yianatos, J., &
Kowalczuk, P. B. (2023). Effects of operating param-
eters on residence time distribution in a REFLUX flo-
tation cell. Minerals Engineering, 204, 108439.
Harbort, G., De Bono, S., Carr, D., &Lawson, V. (2003).
Jameson Cell fundamentals––a revised perspective.
Minerals Engineering, 16(11), 1091–1101.
Hassanzadeh, A., Safari, M., Hoang, D. H., Khoshdast, H.,
Albijanic, B., &Kowalczuk, P. B. (2022). Technological
assessments on recent developments in fine and coarse
particle flotation systems. Minerals Engineering, 180,
107509.
Jera, T. M., &Bhondayi, C. (2022). A Review on Froth
Washing in Flotation. Minerals, 12(11), 1462.
Jiang, K., Dickinson, J. E., &Galvin, K. P. (2014).
Maximizing bubble segregation at high liquid fluxes.
Advanced Powder Technology, 25(4), 1205–1211.
Ireland, P. M., &Jameson, G. J. (2007). Liquid transport
in a multi-layer froth. Journal of colloid and interface
science, 314(1), 207–213.
Ireland, P. M., Neville, F., Dickinson, J. E., &Galvin, K. P.
(2019). Enhancing extraction in ion flotation using the
boycott effect. Chemical Engineering and Processing-
Process Intensification, 145, 107678.
Mesa, D., &Brito-Parada, P. R. (2019). Scale-up in froth
flotation: A state-of-the-art review. Separation and
purification technology, 210, 950–962.
Napier-Munn, T. J. (2014). Statistical Methods for Mineral
Engineers. JKMRC, Australia.
Mudd, G. M. (2010). The environmental sustainability
of mining in Australia: key mega-trends and looming
constraints. Resources Policy, 35(2), 98–115.
Öteyaka, B., &Soto, H. (1995). Modelling of negative
bias column for coarse particles flotation. Minerals
Engineering, 8(1–2), 91–100.
Parkes, S., Wang, P., &Galvin, K. P. (2024). Investigating
the system flotation kinetics of fine chalcopyrite in
a REFLUX ™ flotation cell: Part II low-grade ores.
Minerals Engineering, 207, 108548.
Şahbaz, O., Öteyaka, B., Kelebek, Ş., Uçar, A., &Demir,
U. (2008). Separation of unburned carbonaceous mat-
ter in bottom ash using Jameson cell. Separation and
Purification Technology, 62(1), 103–109.
Tabosa, E. O., Runge, K., &Holtham, P. (2012). The effect
of cell hydrodynamics on flotation kinetics (Doctoral
dissertation, University of Queensland).
Wang, L., Peng, Y., Runge, K., &Bradshaw, D. (2015). A
review of entrainment: Mechanisms, contributing fac-
tors and modelling in flotation. Minerals Engineering,
70, 77–91.
Wang, P., Yvon, M., Parkes, S., &Galvin, K. P. (2024).
Enhancing nickel grade and recovery with counter-
current washing of the concentrated bubbly-zone of
a single stage REFLUX ™ Flotation Cell. Minerals
Engineering, 206, 108506.