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Yianatos, J.B., Henriquez, F.H., and Oroz, A.G. 2006.
Characterization of Large Size Flotation Cells. Minerals
Engineering. 19(2006), 531–538.
Laskovski, D., Duncan, P., Stevenson, P., Zhou, J. and
Galvin, K.P. 2006. Segregation of Hydraulically
Suspended Particles in Inclined Channels. Chemical
Engineering Science, 61:22, 7269–7278.
Lynch, A.J., Harbort, G.J., and Nelson, M.G. 2010.
History of Flotation. Carlton, Victoria: The Australasian
Institute of Mining and Metallurgy.
Lynch, A.J., Johnson, N.W. Manlapig, E.V., and Thorne
C.G. 1981. Mineral and Coal Flotation Circuits.
Amsterdam: Elsevier Scientific Publishing Company.
Mackinnon, S., Yan, D. and Dunne, R. 2003, The inter-
action of flash flotation with closed circuit grinding,
Minerals Engineering, 16, 1149–1160.
Maelgwen. 2024. https://maelgwyn.com/imhoflot
-pneumatic-flotation-plants/. Accessed June 2024.
Metso. 2024a. https://www.metso.com/portfolio/flotation
-center-launder-upgrade/. Accessed June 2024.
Metso. 2024b. https://www.metso.com/portfolio/tankcell/.
Accessed June 2024.
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Metso. 2024d. https://www.metso.com/pt/portfolio
/concorde-cell/. Accessed June 2024.
Morris, T.M. 1952. Measurement and Evaluation of
the Rate of Flotation as A Function of Particle Size.
Transactions AIME, Mining Engineering, August,
794–798.
Nelson, M.G., and L.D. Redden, Power Consumption in
a Large Flotation Machine, the 127.5-m3 WEMCO
SmartCell ™. 1997. Proceedings of the X International
Mineral Processing Congress, vol. 3, GMDB
Gesellschaft fur Bergbau, Metallurgie, Rohstoff, und
Umwelttechnik, Clausthal-Zellerfeld, Germany.
Nelson, M.G., and Lelinski, D. 2019. Mechanical Flotation
Machines, Chapter 7.1 in SME Mineral Processing
and Extractive Metallurgy Handbook, SME, Littleton,
Colorado.
Rahman, R.M., Atam, S., and Jameson, G.J. 2014, Study
of Froth Recovery and Froth Dropback Behavior
in a controlled Plant Environment. In Proceedings of
the International Mineral Processing Congress (IMPC
XXVII), Santiago Chile. https://www.onemine.org
/search?Keywords=Study+of+froth+recovery+and
+froth+dropback&SearchField=Title. Accessed
February 2024.
Schulze, H. 1984. Physico-Chemical Elementary Processes in
Flotation. Elsevier, Amsterdam.
Spedden, H.R., and Hannan Jr., W.W. 1948. Attachment
of Mineral Particles to Air Bubbles in Flotation,
Transactions AIME, Mining Tech., March, TP 2354.
Swedburg, K., Bennett, C., Samuels, M., and Wells, P.F.
2016. Application of the Woodgrove Staged Flotation
Reactor (SFR) Technology at the New Afton
Concentrator. In IMPC 2016: XXVIII International
Mineral Processing Congress Proceedings, ISBN: 978-1-
926872‑29-2, https://www.onemine.org/documents
/application-of-the-woodgrove-staged-flotation
-reactor-sfr-technology-at-the-new-afton
-concentrator. Accessed February 2024.
Vollert, L., Akerstrom, B., Seaman, B., and Kohmuench, J.,
2019. Newcrest’s Industry-first Application of Eriez
HydroFloat ™ Technology for Copper Recovery from
Tailings at Cadia Valley Operations. In: Proceedings
of the 58th Conference of Metallurgists Hosting the
International Copper Conference 2019, CIM, Vancouver,
British Columbia.
Wikiwand. 2024. https://www.wikiwand.com/en/Jameson
_cell. Accessed June 2024.
Woodgrove. 2024. http://www.woodgrovetech.com/direct
-flotation-reactor/. Accessed June 2024.
Yianatos, J.B., Henriquez, F.H., and Oroz, A.G. 2006.
Characterization of Large Size Flotation Cells. Minerals
Engineering. 19(2006), 531–538.