Abstract
The solubilization and the micellar-enhanced ultrafiltration (MEUF) of o-cresol were investigated by using an anionic surfactant, sodium dodecyl sulfate (SDS). In order to study the solubilization behaviour of the solute, the semiequilibrium dialysis (SED) method was employed and stirred-cell ultrafiltration experiments were performed for the test of MEUF. The analysis of the results supported that approximately two surfactant molecules provide a location for the solubilized solute within micelle. In the removal of o-cresol by MEUF, as long as high SDS concentrations in the retentate (>0.2 M) are avoided, relatively good rejection of o-cresol (85 %) could be obtained under the conditions used (initial concentration ratio:[o-cresol]/[SDS]=0.2 and 0.6). Furthermore, the ultrafiltration processes were nearly at equilibrium, so that the permeate concentrations of o-cresol could be predicted from the SED results. The separation efficiency was greater at lower o-cresol concentrations when the SDS concentrations were fixed in the feed, while the rejection increased with increasing the SDS concentrations at constant intramicellar mole fraction of the solute Xc. In addition, as the o-cresol loading of retentate increased, the less SDS in the retentate permeated through ultrafiltration membranes. On the other hand, the higher o-cresol loadings reduced the fluxes of MEUF runs.
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References
Abe, M., Mizuguchi, K., Kondo, Y., Ogino, K., Uchiyama, H., Scamehorn, J. F., Tucker, E. E. and Christian, S. D., “Solubilization of Perfume Compounds by Pure and Mixtures of Surfactants”,J. Colloid Interface Sci.,160, 16 (1993).
Almgren, M., Grieser, F. and Homas J. K., “Dynamic and Static Aspects of Solubilization of Neutral Arenes in Ionic Micellar Solutions”,J. Am. Chem. Soc.,101, 279 (1979).
Bhat, S. N., Smith, G. A., Tucker, E. E., Christian, S.D., Scamehorn J. F. and Smith, W., “Solubilization of Cresols by 1-Hexadecylpyridinium Chloride Micelles and Removal of Cresols from Aqueous Streams by Micellar-Enhanced Ultrafiltration”,Ind. Eng. Chem. Res.,26, 1217 (1987).
Christian, S. D., Bhat, S. N., Tucker, E. E., Scamehorn J. F. and El-Sayed, D. A., “Micellar-Enhanced Ultrafiltration of Chromate Anion from Aqueous Streams”,AIChE J.,34, 189 (1988).
Christian, S. D., Smith, G. A., Tucker, E. E. and Scamehorn J. F., “Semiequilibrium Dialysis: A New Method for Measuring the Solubilization of Organic Solutes by Aqueous Surfactant Solutions”,Langmuir,1, 564 (1985).
Christian, S. D. and Tucker, E. E., “Least Squares Analysis with the Microcomputer; Linear Relationships”,Am. Lab.,14(8), 36 (1982a).
Christian, S. D. and Tucker, E. E., “Least Squares Analysis with the Microcomputer; Nonlinear Relationships”,Am. Lab.,14(9), 31 (1982b).
Christian, S. D., Tucker, E. E., Scamehorn, J. F. and Uchiyama, H., “On the Interpretation of Solubilization Results Obtained from Semi-equilibrium Dialysis Experiments”,Colloid Polym. Sci.,271, 745 (1994).
Dunn, R. O., Scamehorn, J. F. and Christian, S. D., “Use of Micellar-Enhanced Ultrafiltration to Remove Dissolved Organics from Aqueous Streams”,Sep. Sci. Technol,20, 257 (1985).
Dunn, R. O., Scamehorn, J. F. and Christian, S. D., “Simultaneous Removal of Dissolved Organics and Divalent Metal Cations from Water Using Micellar-Enhanced Ultrafiltration”,Colloids Surfaces,35, 49 (1989).
Hirai, Y. and Tomokuni, K., “Extraction-Spectrophotometric Determination of Anionic Surfactants with a Flow-Injection System”,Anal. Chim. Acta.,167, 409 (1985).
Hong, J.-J., Yang, S.-M. and Lee, C.-H., “Continuous Separation of Phenol from an Aqueous Stream Using Micellar-Enhanced Ultrafiltration (MEUF)”,J. Chem. Eng. Japan,27, 314 (1994).
Klepac, J., Simmons, D. L., Taylor, R. W., Scamehorn, J. F. and Christian, S. D., “Use of ligand-Modified Micellar-Enhanced Ultrafiltration in the Selective Removal of Metal Ions from Water”,Sep. Sci. Technol,26, 165 (1991).
Kondo, Y., Abe, M., Ogino, K., Uchiyama, H., Scamehorn, J. F., Tucker, E. E. and Christian, S. D., “Solubilization of 2-Phenylethanol in Surfactant Vesicles and Micelles”,Langmuir,9, 899 (1993).
Le, M. S. and Howell, J. A., “Alternative Model for Ultrafiltration”,Chem. Eng. Res. Des.,62, 373 (1984).
Lee, B.-H., Christian, S. D., Tucker, E. E. and Scamehorn, J. F., “Solubilization of Mono-and Dichlorophenols by Hexadecylpyridinium Chloride Micelles. Effects of Substituent Groups”,Langmuir,6, 230 (1990).
Lee, B.-H., Christian, S. D., Tucker, E. E. and Scamehorn, J. F., “Substituent Group Effects on the Solubilization of Polar Aromatic Solutes (Phenols, Anilines, and Benzaldehydes) by N-Hexadecylpyridinium Chloride”,J. Phys. Chem.,95, 360 (1991).
Lianos, R., Viriat, M. L. and Zana, R., “Study of the Solubilization of Aromatic Hydrocarbons by Aqueous Micellar Solutions”,J. Phys. Chem.,88, 1098 (1984).
Michaels, A. S., “New Separations Technique for the CPI”,Chem. Eng. Prog.,64, 31 (1968).
Morgan, M. E., Uchiyama, H., Christian, S. D., Tucker, E. E. and Scamehorn, J. F., “Solubilization of Pentanol by Micelles of Cationic Surfactants and Binary Mixtures of Cationic Surfactants in Aqueous Solution”Langmuir,10, 2170 (1994).
Motomizu, S., Fujiwara, S., Fujiwara, A. and Toei, K., “Solvent Extraction-Spectrophotometric Determination of Anionic Surfactants with Ethyl Violet”,Anal. Chem.,54, 392 (1982).
Mukerjee, P., “Solubilization in Micellar Systems”,Pure & Appl. Chem.,52, 1317 (1980).
Mukerjee, P., “The Size Distribution of Small and Large Micelles: a Multiple Equilibrium Analysis”,J. Phys. Chem.,76, 565 (1972).
Mukerjee, P., Cardinal, J. R., and Desai, N. R., “Micellization, Solubilization and Microemulsion”, Plenum Press, New York, 1977.
Mulder, M. H. V., “Polarization Phenomena and Membrane Fouling”, Membrane Separations Technology, Principles and Applications, Noble, R. D. and Stern, S. A., eds., Elsevier Science B. V., 1995.
Scamehorn, J. F., Christian, S. D. and Ellington, R. T., “Use of Micellar-Enhanced Ultrafiltration to Remove Multivalent Metal Ions from Aqueous Streams”, Surfactant-Based Separation Processes, Scamehorn, J. F. and Harwell, J. H., eds., Marcel Dekker, Inc., New York, 1989.
Scamehorn, J. F., Ellington, R. T., Christian, S. D., Penny, B. W., Dunn, R. O. and Bhat, S. N., “Removal of Multivalent Metal Cations from Water Using Micellar-Enhanced Ultrafiltration”, AIChE Symp. Ser.,82, 48 (1986).
Smith, G. A., Christian, S. D., Tucker, E. E. and Scamehorn, J. F., “Use of the Semi-Equilibrium Dialysis Method in Studying the Thermodynamics of Solubilization of Organic Compounds in Surfactant Micelles. System n-Hexadecylpyridinium Chloride-Phenol-Water”,J. Solution Chem.,15, 519 (1986).
Uchiyama, H., Tucker, E. E., Christian, S. D. and Scamehorn, J. F., “Solubilization of Trichloroethylene by N-Hexadecylpyridinium Chloride Micelles”,J. Phys. Chem.,98, 1714 (1994).
Uchiyama, H., Scamehorn, S. D., Tucker, E. E., Christian, J. F., “Solubilization and Separation of p-tert-Butylphenol Using Polyelectrolyte/Surfactant Complexes in Colloid-Enhanced Ultrafiltration”,J. Colloid Interface Sci,163, 493 (1994).
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Park, S.J., Yoon, H.H. & Song, SK. Solubilization and micellarenhanced ultrafiltration ofo-cresol by Sodium Dodecyl Sulfate Micelles. Korean J. Chem. Eng. 14, 233–240 (1997). https://doi.org/10.1007/BF02706817
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DOI: https://doi.org/10.1007/BF02706817
Key words
- Micellar-Enhanced Ultrafiltration
- Semiequilibrium Dialysis
- Sodium Dodecyl Sulfate
- o-Cresol
- Solubilization Equilibrium Constant