In the present work, a group contribution model is proposed for estimating the dynamic viscosity of fatty compounds.
For the major components involved in the vegetable oil industry (such as fatty acids, esters and alcohols,
triacylglycerols, and partial acylglycerols), the optimized parameters are reported. In order to improve the data
bank gathered from the literature, viscosity data were measured as a function of temperature for three saturated
and three unsaturated fatty esters, one unsaturated fatty acid, and one unsaturated triacylglycerol. These last two
are unavailable data in the literature (linolenic acid and trilinolenin). A simple method of calculation is also
proposed to predict the dynamic viscosity of vegetable oils as an extended applicability of our equation. The
model can be a valuable tool for designing processes and equipment for the oil industry, including edible and
non-edible compounds, such as biodiesel.
Deacidification of vegetable oils can be performed by liquid-liquid extraction. The present paper reports experimental data for the system corn oil + oleic acid + ethanol + water at 298.15 K and different water contents. The addition of water to the solvent reduces the loss of neutral oil in the alcoholic phase and improves the solvent selectivity. The experimental data were correlated by the NRTL and UNIQUAC models, with a global deviation of 0.89% and 0.92%, respectively.
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