Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10377612 | Journal of Colloid and Interface Science | 2005 | 9 Pages |
Abstract
We examined the morphologies of two-phase emulsions in the ternary 2-butoxyethanol/n-decane/water system at various temperatures and water-to-oil ratios (WORs). The two-phase emulsion morphologies depended on temperature, WOR, and amphiphile concentration, and the results are presented in a temperature-amphiphile concentration coordinate system or a “fish” diagram. The observations made in this work contradict the predictions by the phase-inversion-temperature (PIT) concept. At WOR<1, a vertical inversion line was observed at TTuc (upper critical endpoint temperature) and at low amphiphile concentrations, only B/T emulsions appeared, irrespective of temperature. At WORÂ >Â 1, the situation was reversed; T/B emulsions at TTuc, and T/B emulsions at low amphiphile concentrations, irrespective of temperature. At WORÂ =Â 1, two horizontal inversion lines, one each at TTuc, were observed. The morphologies of the two-phase emulsions were B/T or T/B emulsions at low amphiphile concentrations, and at higher amphiphile concentrations T/B at TTuc. All these findings along with three-phase emulsion data result in complete emulsion morphology diagrams in the temperature-amphiphile concentration space or fish diagram.
Related Topics
Physical Sciences and Engineering
Chemical Engineering
Colloid and Surface Chemistry
Authors
Jong-Moon Lee, Kyung-Hee Lim,