2922 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Barbery, G. (1984). Engineering Aspects of Flotation in
the Minerals Industry: Flotation Machines, Circuits
and Their Simulation, in The Scientific Basis of
Flotation (Ed: K.J. Ives), NATO Advanced Institute
Services, Series E, No. 25, Martinus Nijhoff, Boston,
Massatucheses, pp. 289 –348.
Behnamfard, A. Veglio, F. Estimation of xanthate decom-
position percentage as a function of pH, tempera-
ture, and time by least squares regression and adaptive
neuro-fuzzy inference system. Int. J. Min. &Geo-Eng.
(IJMGE), 53–2 (2019) 157–163.
Carmona, J. Castillo, M. Concha, J. Christodoulou, L.
Wasmund, E. Coarse gold recovery using flotation
in a bed fluidized. 47th Annual Canadian Mineral
Processors Conference, January 20 to 22, 2015, Ottawa
– Canada.
Gontijo, C., Fornasiero, D., &Ralston, J. (2007). The
limits of fine and coarse particle flotation. Canadian
Journal of Chemical Engineering, 87, 739–747.
Hobert, A., Van Wagoner, R., Dohm, E., Bird, T. (2023)
‘Industrial Demonstration of Coarse Particle Flotation
at Rio Tinto Kennecott’, Procemin-GEOMET 2023,
Santiago.
Jameson, G. Size matter Coarse and quick flotation
can reduce costs. The AusIMM Guillaume Delprat
Distinguished Lecture Series 2013.
Kohmuench, J. Mankosa, M. Kennedy, D. Yasalonis,
J. Taylor, G. Luttrell, G. Implementation of the
HydroFloat technology at the South Fort Meade Mine.
2007 SME Annual Meeting &Exhibit.
Mehrfert, P.J. (2017) ‘Investigating the potential of
HydroFloatTM coarse particle flotation techniques
on copper sulphide ore’, Canadian Mineral Processors,
Ottawa.
Miller, J.D., Lin, C.L., Wang, Y., Mankosa, M.J.,
Kohmuench, J.N., &Luttrell, G.H. The significance
of exposed grain surface area in coarse particle flotation
of low-grade gold ore with the HydroFloat technology.
Proceedings XXVIII International Mineral Processing
Congress, Québec City, QC, Paper 455, 10 pp. (in
press), 2016.
Vallejos, P. Yianatos, J. Vinnett, L. A Model Structure for
Size-by-Liberation Recoveries in Flotation. Minerals
2021, 11, 194.
Vollert, L. Akerstrom, B. Seaman, B. Kohmuench,
J. Newcrest´s industry first application of Eriez
HydroFloat ® technology for copper recovery from tail-
ings at Cadia Valley Operations. COM Copper 2019,
20th August.
Barbery, G. (1984). Engineering Aspects of Flotation in
the Minerals Industry: Flotation Machines, Circuits
and Their Simulation, in The Scientific Basis of
Flotation (Ed: K.J. Ives), NATO Advanced Institute
Services, Series E, No. 25, Martinus Nijhoff, Boston,
Massatucheses, pp. 289 –348.
Behnamfard, A. Veglio, F. Estimation of xanthate decom-
position percentage as a function of pH, tempera-
ture, and time by least squares regression and adaptive
neuro-fuzzy inference system. Int. J. Min. &Geo-Eng.
(IJMGE), 53–2 (2019) 157–163.
Carmona, J. Castillo, M. Concha, J. Christodoulou, L.
Wasmund, E. Coarse gold recovery using flotation
in a bed fluidized. 47th Annual Canadian Mineral
Processors Conference, January 20 to 22, 2015, Ottawa
– Canada.
Gontijo, C., Fornasiero, D., &Ralston, J. (2007). The
limits of fine and coarse particle flotation. Canadian
Journal of Chemical Engineering, 87, 739–747.
Hobert, A., Van Wagoner, R., Dohm, E., Bird, T. (2023)
‘Industrial Demonstration of Coarse Particle Flotation
at Rio Tinto Kennecott’, Procemin-GEOMET 2023,
Santiago.
Jameson, G. Size matter Coarse and quick flotation
can reduce costs. The AusIMM Guillaume Delprat
Distinguished Lecture Series 2013.
Kohmuench, J. Mankosa, M. Kennedy, D. Yasalonis,
J. Taylor, G. Luttrell, G. Implementation of the
HydroFloat technology at the South Fort Meade Mine.
2007 SME Annual Meeting &Exhibit.
Mehrfert, P.J. (2017) ‘Investigating the potential of
HydroFloatTM coarse particle flotation techniques
on copper sulphide ore’, Canadian Mineral Processors,
Ottawa.
Miller, J.D., Lin, C.L., Wang, Y., Mankosa, M.J.,
Kohmuench, J.N., &Luttrell, G.H. The significance
of exposed grain surface area in coarse particle flotation
of low-grade gold ore with the HydroFloat technology.
Proceedings XXVIII International Mineral Processing
Congress, Québec City, QC, Paper 455, 10 pp. (in
press), 2016.
Vallejos, P. Yianatos, J. Vinnett, L. A Model Structure for
Size-by-Liberation Recoveries in Flotation. Minerals
2021, 11, 194.
Vollert, L. Akerstrom, B. Seaman, B. Kohmuench,
J. Newcrest´s industry first application of Eriez
HydroFloat ® technology for copper recovery from tail-
ings at Cadia Valley Operations. COM Copper 2019,
20th August.