Reference
- N. Ahmed and G. J. Jameson, “The Effect of Bubble Size on the Rate of Flotation of Fine Particles”, Int. J. Miner. Process, 1985, vol. 14, pp. 195–215.
- G. S. Dobby and J. A. Finch, “Particle Collection in Columns - Gas Rateand Bubble Size Effects”, Canadian Metallurgical Quarterly, 1986, vol. 25 (1), pp. 9–13.
- R. H. Yoon and H. H. Luttrel, “The Effect of Bubble Size on FineParticle Flotation”, Frothing in Flotation: A Volume in Honour of Jan Leja, 1989, J.S. Laskowski, ed., Vol. 5, pp. 101–122.
- D. W. Fuerstenau, “Advances in Flotation Technology”, Proceedings ofSymposium of Advances in Flotation Technology, held at the SME Annual Meeting, March 1-3, 1999, B.K. Parekh and J.D. Miller, eds., Society for Mining Metallurgy and Exploration, Littleton, Colorado, pp. 3–21.
- A. F. Taggart, Handbook of Mineral Dressing, 1947, Section 12, John Wiley and Sons, New York.
- P. J. Harris, “Frothing Phenomena and Frothers”, Principles of Frothers,1982, R.P. King, Ed., Chapter 13, pp. 237–250.
- J. J. Bikerman, “The Unit of Foaminess”, Trans. of the Faraday Society,1938, vol. 34, pp. 634–638.
- S. C. Sun, “Frothing Characteristics of Pine Oils in Flotation”, Trans.Am. Inst. Mining Met. Eng. (AIME), 1952, vol. 256, pp. 65–71.
- J. D. McLaughlin, P. Quinn, G. Robertson and G. E. Agar, “FrotherEvaluation”, 18th International Mineral Processing Congress, May 23-28, 1993, Sydney, Australia, Vol. 3, pp. 637–641.
- E. Iglesias, J. Anderez, A. Forgiarini and J-L. Salager, “A New Methodto Estimate the Stability of Short-Life Foams”, Colloids and Surfaces - A, 1995, vol. 98, pp. 167–174.
- N. Barbian, E. Ventura-Medina and J. J. Cilliers, “Dynamic Froth Stability in Froth Flotation”, Minerals Engineering, 2003, vol. 16, pp. 1111–1116.
- R. Espinosa-Gomez, J. A. Finch and W. Bemert, “Coalescence and Froth Collapse in the Presence of Fatty Acids”, Colloids and Surfaces, 1988, vol. 32, pp. 197–209.
- C. Sweet, J. Van Hoogstraten, M. Harris and J.S. Laskowski, “The Effect of Frothers on Bubble Size and Frothability of Aqueous Solutions”, Proceedings of the Second UBC-McGill Bi-annual International Symposium of Fundamentals of Mineral Processing, August 17-19, 1997, J.A. Finch, S.R. Rao and I. Holubec, eds., Sudbury, Ontario, pp. 235–245.
- Y. S. Cho and J. S. Laskowski, “Effect of Flotation Frothers on BubbleSize and Foam Stability”, International Journal of Mineral Processing, 2002, vol. 64, pp. 69–80.
- J. S. Laskowski, “Fundamental Properties of Flotation Frothers”, Proceedings of the 22nd International Mineral Processing Congress (IMPC), 29 September — 3 October, 2003, L. Lorenzen, D. Bradshaw, eds., Cape Town, South Africa, pp. 788–797.
- J. S. Laskowski, T. Tlhone, P. Williams and K. Ding, “Fundamental Properties of the Polyoxypropylene Alkyl Ether Flotation Frothers”, International Journal of Mineral Processing, 2003, vol. 72, pp. 289–299.
- B. A. Comely, P. J. Harris, D. J. Bradshaw and M. C. Harris, “Frother Characterization Using Dynamic Surface Tension Measurements”, International Journal of Mineral Processing, 2002, vol. 64, pp. 81–100.
- P. Moyo, C. O. Gomez and J. A. Finch, “Characterization of Frothers byWater Carrying Rate”, 6th UBC-McGill-UA Symposium on Fundamentals of Mineral Processing: Interfacial Phenomena in Fine Particle Technology, October, 1-4, 2006, Montreal, QC, pp 133-146.
- R. Clift, J. R. Grace and M. E. Weber, Bubbles, Drops and Particles, Academic Press, New York, 1978.
- J. A. Finch and G. S. Dobby, Column Flotation, 1990, Pergamon Press,New York.
- S. Banisi and J. A. Finch, “Technical Note: Reconciliation of BubbleSize Estimation Methods Using Drift Flux Analysis”, Minerals Engineering, 1994, vol. 7, pp. 1555–1559.
- Z. A. Zhou, N. O. Egiebor and L. R. Plitt, “Frother Effects on Bubble Motion in a Swarm”, Canadian Metallurgical Quarterly, 1993, vol. 32, pp. 89–96.
- J. R. Hemandez-Aguilar, R. G. Coleman, C.O. Gomez and J.A. Finch, “A Comparison Between Capillary and Imaging Techniques for Sizing Bubbles in Flotation Systems”, Minerals Engineering, 2004, vol. 17, pp. 53–61.