期刊
JOURNAL OF SUPERCRITICAL FLUIDS
卷 55, 期 2, 页码 712-723出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.supflu.2010.08.019
关键词
Microemulsions; Emulsions; Interfacial tension; Surfactant
资金
- Dow Chemical Co.
- National Science Foundation [CHE-9876674]
- Department of Energy Office of Basic Energy Sciences
- Robert A. Welch Foundation [F1319]
- Process Science and Technology Center at UT
Measurements of interfacial tensions for 2-ethyl-hexanol-(propylene oxide)similar to(4.5)-(ethylene oxide)similar to(8) (2EN-PO4.5-EO8) at the planar water-CO2 interface and the surfactant distribution coefficient are utilized to explain microemulsion and macroemulsion phase behavior from 24 to 60 degrees C and 6.9 to 27.6 MPa. A CO2 captive bubble technique has been developed to measure the interfacial tension gamma at a known surfactant concentration in the aqueous phase, with rapid equilibration at the water-CO2 interface. The surface pressure (gamma(o)-gamma) decreases modestly with density at constant temperature as CO2 solvates the surfactant tails more effectively, but changes little with temperature at constant density. The area per surfactant at the CO2-water interface determined from the Gibbs adsorption equation decreases from 250 A(2)/molecule at 24 degrees C and 6.9 MPa. to 200 A(2)/molecule at 27.6 MPa. It was approximately twofold larger than that at the water-air interface, given the much smaller gamma(o) driving force for surfactant adsorption. For systems with added NaCl, gamma decreases with salinity at low CO2 densities as the surfactant partitions from water towards the W-C interface. At high densities, salt drives the surfactant from the W-C interface to CO2 and raises gamma. Compared with most hydrocarbon surfactants, this dual tail surfactant is unusually CO2-philic in that it partitions primarily into the CO2 phase versus the water phase at CO2 densities above 0.8 g/ml, and produces gamma values below 1 mN/m. With this small gamma, a middle phase microemulsion and a C/W microemulsion were formed at low temperatures and high CO2 densities, whereas macroemulsions were formed at other conditions. (C) 2010 Published by Elsevier B.V.
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