References

1. T. Zabel, The advantages of dissolved air flotation for water treatment, J. AWWA, 77 (1985) 42–46.
2. J.K. Edzwald, J.P. Walsh, G.S. Kaminski, H.J. Dunn, Flocculation and air requirements for dissolved air flotation, J. AWWA, 84 (1992) 92–100.
3. M.Y. Han, W.T. Kim, S. Dockko, Collision efficiency factor of bubble and particle(αbp) in DAF: theory and experimental verification, Water Sci. Technol., 43 (2001) 139–144.
4. M.Y. Han, Development of a new method of measuring bubble size, Water Sci. Technol.: Water Supply 2 (2002) 77–83.
5. L. Parkinson, R. Sedev, D. Fornasiero, J. Ralston, The terminal rise velocity of 10–100 μm diameter bubbles in water, J. Colloid Interface Sci., 322 (2008) 168–172.
6. A. Sam, C.O. Gomez, J.A. Finch, Axial velocity profiles of single bubbles in water/frother solutions, Int. J. Mineral Process., 47 (1996) 177–196.
7. S. Kawamura, Optimization of basic water treatment processes-design and operation: coagulation and flocculation, Aqua, 45 (1996) 35–49.
8. S. Kawamura, Integrated Design and Operation of Water Treatment Facilities, 2nd ed., John Wiley & Sons, USA, 2000.
9. A. Amirtharajah, K.M. Mills, Rapid-mix design for mechanisms of alum coagulation, J. AWWA, 74 (1982) 210–216.
10. J.A. Kitchener, R.J. Gochin, The mechanism of dissolved air flotation for potable water: basic analysis and a proposal, Water Res., 15 (1981) 585–590.
11. E.R. Vrablik, Fundamental Principles of Dissolved-air Flotation of Industrial Wastes, Proc. 14th Ind. Waste Conf., 1959, pp. 743–779.
12. A.R. Shawwa, D.W. Smith, Hydrodynamic characterisation in dissolved air flotation (DAF) contact zone, Water Sci. Technol., 38 (1998) 245–252.