Densities, Viscosities, Interfacial Tensions, and Liquid−Liquid Equilibrium Data for Systems Composed of Soybean Oil + Commercial Linoleic Acid + Ethanol + Water at 298.2 K

Densities, Viscosities, Interfacial Tensions, and Liquid−Liquid Equilibrium Data for Systems Composed of Soybean Oil + Commercial Linoleic Acid + Ethanol + Water at 298.2 K

This work presents densities, viscosities, interfacial tensions, and liquid−liquid equilibrium data for systems of interest in vegetable oil refining and biodiesel production, composed of soybean oil + commercial cis,cis-octadeca-9,12-dienoic acid (linoleic acid) + ethanol + water at 298.2 K with wa...

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Bibliographic Details
Published in:Journal of chemical and engineering data Vol. 55; no. 11; pp. 5237 - 5245
Main Authors: Sanaiotti, Guilherme, da Silva, César A. S, Parreira, Adriano G, Tótola, Marcos R, Meirelles, Antonio J. A, Batista, Eduardo A. C
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 11-11-2010
Subjects:
Biological and medical sciences
Chemistry
Exact sciences and technology
Fat industries
Food industries
Fundamental and applied biological sciences. Psychology
General and physical chemistry
Liquid-liquid equilibria
Phase equilibria
Water
Viscosity
Ethanol
Interface tension
Polyunsaturated fatty acid
Alcohol
Vegetable oil
Edible oil
Quaternary system
Density
Physical properties
Linoleic acid
Surface properties
Commercial form
Soybean oil
Phase equilibrium
Liquid liquid equilibrium
Rheological properties
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Summary:This work presents densities, viscosities, interfacial tensions, and liquid−liquid equilibrium data for systems of interest in vegetable oil refining and biodiesel production, composed of soybean oil + commercial cis,cis-octadeca-9,12-dienoic acid (linoleic acid) + ethanol + water at 298.2 K with water mass fractions in the alcohol solvent (ethanol + water) of 0.05, 0.08, 0.11, and 0.14. Experimental phase compositions at equilibrium were correlated using the nonrandom two-liquid (NRTL) model. For all systems, the global deviations between calculated and experimental phase compositions were no greater than 0.0005. All physical properties were evaluated by empirical correlations as functions of phase compositions. The absolute relative deviations between calculated and experimental data were no greater than 6.36 %. Water content in the solvent presented a considerable effect on the physical properties of the systems and phase compositions at equilibrium, even more so on its interfacial tensions.
ISSN:0021-9568
1520-5134
DOI:10.1021/je100824f