A novel technique to semi-quantitatively study the stability of emulsions and the kinetics of the coalescence under different dynamic conditions

A novel technique to semi-quantitatively study the stability of emulsions and the kinetics of the coalescence under different dynamic conditions

The detector response represents the dynamics of coalescence occurring between drops of different emulsified aqueous droplets. Stable emulsions are also imposed by a hydrodynamic shock. •A new semi-quantitative technique is developed to measure coalescence between drops.•The technique provides the r...

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Bibliographic Details
Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Vol. 460; pp. 327 - 332
Main Authors: Karbaschi, M., Orr, R., Bastani, D., Javadi, A., Lotfi, M., Miller, R.
Format: Journal Article
Language:English
Published: Elsevier B.V 20-10-2014
Subjects:
Coalescence kinetics
Colorimetric method
Concentrated W/O emulsion
Emulsion instability
UV–Vis Spectrophotometry
Concentrated W/O emulsion
Coalescence kinetics
Emulsion instability
Colorimetric method
UV–Vis Spectrophotometry
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Summary:The detector response represents the dynamics of coalescence occurring between drops of different emulsified aqueous droplets. Stable emulsions are also imposed by a hydrodynamic shock. •A new semi-quantitative technique is developed to measure coalescence between drops.•The technique provides the rate of coalescence for concentrated W/O emulsions.•The coalescence between drops is analyzed by a colorimetric method. The kinetics of coalescence is studied experimentally using a new technique for tracking the process in the bulk phase. For this aim, aqueous solutions of KSCN (colorless) and FeCl3 (light yellow) are used to make individual W/O emulsions. Any coalescence occurred between drops containing KSCN solution and those containing FeCl3 solution would combine these solutions. This leads to a reddish brown solution due to the formation of iron(III)thiocyanate. The intensity change of this red color with time represents the dynamics of coalescence occurring between drops of different emulsified aqueous droplets. The detector response to any changes in the system is recorded as a function of time. In this study, the effects of different parameters such as the concentration of Span 80 used as emulsifier in individual emulsions, the mixing rate of the emulsion, and the kinetics of coalescence are investigated semi-quantitatively.
ISSN:0927-7757
1873-4359
DOI:10.1016/j.colsurfa.2014.03.032