Influence of Drop Growth Rate and Size on the Interfacial Tension of Triton X-100 Solutions as a Function of Pressure and Temperature

Details Influence of Drop Growth Rate and Size on the Interfacial Tension of Triton X-100 Solutions as a Function of Pressure and Temperature Influence of Drop Growth Rate and Size on the Interfacial Tension of Triton X-100 Solutions as a Function of Pressure and Temperature

Dec 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010ijt....31.2416m&link_type=abstract

International Journal of Thermophysics, Volume 31, Issue 11-12, pp. 2416-2424

Physics

Alkane, Aqueous Solution, Interfacial Tension, Pendant Drop, Triton

Scientific paper

The interfacial tension (IFT) between decane and aqueous solutions of Triton X-100 was determined by the pendant-drop technique, and the effects of the temperature, pressure, surfactant concentration, droplet growth rate, and size were studied. Three aqueous solutions of surfactant were used (0.48 × 10-4 mol · L-1, 0.96 × 10-4 mol · L-1, 1.43 × 10-4 mol · L-1), and the experiments were performed at (2, 3, and 4) MPa and at (30, 40, and 50) °C. As expected, the alkane drop changed its shape, and the IFT of the system decreased as the surfactant adsorbed onto the interface, until the drop finally separates from the capillary, in a maximum time of 2120 s. According to the results, the influence of temperature on the IFT is inversely proportional to the surfactant concentration, because when the concentration increases, the temperature has little effect on it. It was also noticed that the effect of pressure on the IFT at lower surfactant concentrations is less significant than at higher concentrations. When the temperature decreases, the pressure reduces its effect on the IFT, as occurs with systems at 30 °C. The droplet growth rate does not significantly affect the IFT value, while its size does; therefore, when transient studies are carried out, it is required to control the drop size.

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