New directions in flotation machine design

Dahlke, 2005, Operating range of a flotation cell determined from gas holdup vs. gas rate, Minerals Engineering, 18, 977, 10.1016/j.mineng.2004.12.013

Jameson, G.J., 2006. Method and Apparatus for Contacting Bubbles and Particles in a Flotation Separation System. PCT Patent Application No. WO 2006/081611, 10 August.

Jameson, G.J., 2008. Method and Apparatus for Flotation in a Fluidized Bed. PCT Patent Application No. WO 2008/104022, 4 September.

Jameson, G.J., 2009. Advances in fine and coarse particle flotation. In: Gomez, C.O. (Ed.), Fundamentals of Mineral Processing, 7th UBC – McGill – UA Biennial International Symposium in Honour of Professor James Finch, Sudbury, Ontario, Canada, 23–26 August 2009.

Jameson, 2008, The flotation of fine and coarse particles, 339

Jowett, 1980, Formation and disruption of particle–bubble aggregates in flotation, 720

Kohmuench, 2001, Coarse particle concentration using the HydroFloat separator, Minerals & Metallurgical Processing, 18, 61

Kohmuench, J.N., Mankosa, M.J., Westerfield, T.C., Luttrell, G.H., 2005. The HydroFloat Separator – a new technology for recovering coarse phosphate sands. In: Fuerstenau, M.C., Jameson, G.J., Yoon, R.-H. (Eds.), Proceedings Centenary of Flotation Symposium, AusIMM, Brisbane, pp. 209–216.

Kohmuench, 2006, Applications of the CrossFlow teeter bed separator in the US coal industry, Minerals & Metallurgical Processing, 23, 187

Kohmuench, 2007, Implementation of the HydroFloat technology at the South for meade mine, Minerals & Metallurgical Processing, 24, 264

Sandhu, 1979, An experimental study of choked foam flows in a convergent–divergent nozzle, International Journal of Multiphase Flow, 5, 39, 10.1016/0301-9322(79)90004-1

Schulze, 1984

von Smoluchowski, 1917, Versuch einer mathematischen Theorie der Koagulationskinetik kolloider Lösungen, Zeitschrift fur Physikalische Chemie, 92, 129

Yoon, 1989, The effect of bubble size on fine particle flotation, 101