Modeling Surfactant Removal in Foam Fractionation: I -- Theoretical Developmentpart of the Foam Fractionation bibliography of the Reef Aquarium Information Depot |
Chen, S., Timmons, M. B., Bisogni, J. J. & Aneshansley, D. J. Bubble size distribution in a bubble column applied to aquacultural systems. Aquacultural Engineering. Vol. 11, No. 4, pp. 267-280, 1992.
Huguenin, J. E. & Colt, J. Design and Operating guide for Aquacultural Seawater Systems. Elsevier. 1989.
Kown, B. T. The effects of column height and diameter on the effectiveness of a continuous bubble fractionation system. Water Research. Vol. 5, pp. 93-102, 1971.
Lawson, T. B. Venturi design parameters for air injection into a foam fractionation system. PhD dissertation, The University of Maryland, College Park, MD, USA. 1978.
Narsimhan, G. & Ruckenstein, E. Effect of bubble size distribution on the enrichment and collapse in foam. Langmuir>, Vol. 2, pp. 494-508, 1986.
Rubin, E. Foam Fractionation -- some recent studies. In Theory, Practice, and Process Principles for Physical Separations, Proceedings fo the Engineering Foundation Conference, ed. M. P. Freeman & J. FitzPatrick. Engineering Foundation, New York, USA. 1981.
Spotte, S. H. Seawater Aquariums, the Captive Environment. Wiley, New York, USA. 1979.
Weeks, N. C., Timmons, M. B. & Chen, S. Feasibility of using foam fractionation for the removal of dissolved and suspended solids from fish culture water. Aquacultural Engineering, Vol. 11, No. 4, pp. 251-265, 1992.
Wheaton, F. W. Aquacultural Engineering. Wiley, New York, USA. 1977.