[1] Katsuroku Takahashi, Susumu NII, Behavior of Multistage Mixer-Settler extraction Column, Memoirs of the School of Engineering Nagoya University, 51(1), (1999).
[2] Hughmark G.A., Liquid-Liquid Spray Column Drop Size, Hold-up, and Continuous Phase Mass Transfer, I & EC Fundamentals, 6(3), p. 408 (1967).
[3] Kumar A., Hartland S., Unified Correlations for the Prediction of Drop Size in Liquid-Liquid Extraction Columns, Ind. Eng. Chem. Res., 35, p. 2682 (1996).
[4] Desnoyer C., Masbernat O., Gourdon C., Experimental Study of Drop Size Distributions at High Phase Ratio in Liquid-Liquid Dispersions, Chemical Engineering Science, 58, p. 1353 (2003).
[5] Harold R., Null and Horner F. Johnson, Drop Formation in Liquid-Liquid System from Single Nozzles, AICHE Journal, 4(3), p. 273 (1958).
[6] Brodkorb M.J., Bosse D., Reden C., Gorak, A., Slater, M.J., Single Drop Mass Transfer in Ternary and Quaternary Liquid/Liquid Extraction Systems, Chemical Engineering and Processing, 42, p. 825 (2003).
[7] Michel Perrut, Jean-Yves Clavier, Supercritical Fluid Formulation: Process Choice and Scale-up, Ind. Eng. Chem. Res., 42, p. 6375 (2003).
[8] Perrut M., Loutaty R., Drop Size in a Liquid-Liquid Dispersion: Formation in Jet Break-up, Chem. Eng. J., 3(3), p. 286 (1972).
[9] Kumar A., Hartland S., Prediction of Drop Size Produced by a Multiorifice Distributor, Trans. Inst. Chem. Eng., 60, p. 35 (1982).
[10] Chun B. S., Wilkinson G. T., Drop Size and Hold-up in Countercurrent Extraction with Supercritical CO2 in Spray Column, Ind. Eng. Chem. Res., 39, p. 4673 (2000).
[11] Vedaiyan S., Degaleesan T. E., Laddha G. S., Mean Drop Size & Characteristic Velocity of Drop Swarm in Spray Column, Indian J. Technol., 12, p. 135 (1974).
[12] Seibert A. F., Fair J. R., Hydrodynamics and Mass Transfer in Spray and Packed Liquid-Liquid Extraction Columns, Ind. Eng. Chem. Res., 27, p. 470 (1998).
[13] Sudheer K.P., Panda R.K., "Digital Image Processing for Determining Drop Sizes from Irrigation Spray Nozzles, Agricultural Water Management, 45, p. 159 (2000).
[14] Barhate R.S., Ganapathi P., Srinivas1 N.D., Raghavarao K.S.M.S., Drop Formation in Aqueous Two-Phase Systems, Journal of Chromatography A, 1023, p. 197 (2004).
[15] Nandkishor K. Nere, Doraiswami Ramkrishna, Evolution of Drop Size Distributions in Fully Developed Turbulent Pipe Flow of a Liquid-Liquid Dispersion by Breakage, Ind. Eng. Chem. Res., 44, p. 1187 (2005)
[16] Babinsky E., Sojka P.E., Modeling Drop Size Distribution, Progress in Energy and Combustion Science, 28, p. 303 (2002).
[17] "EViews 4 User’s Guide", Quantitative Micro Software, LLC, (2002)