References
- Ralston , J. and Dukhin , S. S. 1999 . Interaction between particles and bubbles . Colloids and Surfaces A: Physicochemical and Engineering Aspects , 151 : 3 – 14 .
- Tao , D. 2004 . Role of bubble size in flotation of coarse and fine particles—A review . Separation Science and Technology , 39 ( 4 ) : 741 – 760 .
- Zhou , Z. A. , Xu , Z. , Finch , J. A. , Hu , H. and Rao , S. R. 1997 . Role of hydrodynamic cavitation in fine particle flotation . Int. J. Miner. Process , 51 : 139 – 149 .
- Farmer , A. D. , Collings , A. F. and Jameson , G. J. 2000 . The application of power ultrasound to the surface cleaning of silica and heavy mineral sands . Ultrasonics Sonochemistry , 7 : 243 – 247 .
- Hart , G. , Morgan , S. and Bramall , N. Generation of picobubbles in flotation feed—A means to reduce collector use . Proceedings of the Ninth Australian Coal Preparation Conference . pp. 136 – 148 .
- Tao , D. , Fan , M. , Honaker , R. and Parekh , B. K. Picobubble enhanced flotation of coarse phosphate particles . Proceedings of the Twenty‐Third International Mineral Processing Congress . Sep. . pp. 3 – 8 . Istanbul, , Turkey
- Weber , M. E. and Paddock , D. 1983 . Interceptional and gravitational collision efficiencies for single collectors at intermediate Reynolds numbers . J. Colloid Interface Sci. , 94 : 328 – 335 .
- Yoon , R.‐H. and Luttrell , G. H. 1989 . The effect of bubble size on fine particle flotation . Inter. J. Miner. Process. Extr. Metall. Rev. , 5 : 101 – 122 .
- Schubert , H. and Bischofberger , C. On the optimization of hydrodynamics in flotation processes . Proceedings of the Thirteenth Int. Miner. Process. Cong. Warszawa. Vol. 2 , pp. 1261 – 1287 .
- Yoon , R.‐H. 2000 . The role of hydrodynamic and surface forces in bubble‐particle interaction . Inter. J. Miner. Proces. , 58 : 128 – 143 .
- Deglon , D. A. , Sawyerr , F. and O'Connor , C. T. 1999 . A model to relate the flotation rate constant and the bubble surface area flux in mechanical flotation cells . Mineral Engineering , 12 ( 6 ) : 599 – 608 .
- Krasowska , M. , Krzan , M. and Malysa , K. 2004 . “ Frother inducement of the bubble attachment to hydrophobic solid surface ” . In Particle Size Enlargement in Mineral Processing Edited by: Laskowski , J. S. 121 – 135 .
- Shimoiizaka , J. and Matsuoka , I. Applicability of air‐dissolved flotation for separation . Proceedings of the Fourteen International Mineral Processing Congress . Oct. , Toronto, Canada. pp. 17 – 23 .
- Attalla , M. , Chao , C. and Nicol , S. K. The role of cavitation in coal flotation . Proceedings of the Eighth Australian Coal Preparation Conference . Nov. 12–16 , Port Stephens. pp. 237 – 250 .
- Attard , P. 2003 . Nanobubbles and the hydrophob attraction . Adv. Colloid Interface Sci. , 104 : 75 – 91 .
- Yang , J. , Duan , J. and Fornasiero , D. 2003 . Very small bubble formation at the solid‐water interface . J. Phys. Chem. B. , 107 : 6139 – 6147 .
- Gong , W. , Stearnes , J. , Fornasiero , D. , Hayes , R. and Ralston , J. 1999 . The influence of dissolved gas on the interactions between surfaces of different hydrophobicity in aqueous media Part II. A spectroscopic study . Phys. Chem. Chem. Phys. , 1 : 2799 – 2803 .
- Tyrell , J. W.G. and Attard , P. 2002 . Atomic force microscope images of nanobubbles on a hydrophobic surface and corresponding force‐separation data . Langmuir , 18 : 160 – 167 .
- Sakamoto , M. , Kanda , Y. Miyahara , N. 2002 . Origin of long‐range attractive force between surfaces hydrophobicized by surfactant adsorption . Langmuir , 18 ( 15 ) : 5713 – 5719 .
- Stockelhuber , K. W. , Radoev , B. , Wenger , A. and Schulze , H. J. 2004 . Rupture of wetting films caused by nanobubbles . Langmuir , 20 : 164 – 168 .
- Schubert , H. 2005 . Nanobubbles, hydrophobic effect, heterocoagulation and hydrodynamics in flotation . Int. J. Miner. Process , 78 : 11 – 21 .