- Previous Article
- Next Article
- Table of Contents
Journal of Food Engineering, Vol.126, 198-205, 2014
Solid Fat Content of vegetable oils and simulation of interesterification reaction: Predictions from thermodynamic approach
The Solid Fat Content (SFC) of vegetable oils is a fundamental property in fatty foods. Also, chemical interesterification (the exchange of fatty acids within and between triacylglycerols) has been used to enhance the melting profile of vegetable oils blends used in food industry. The present work uses a computational approach using Solid-Liquid Equilibrium (SLE) to predict SFC and simulate the chemical interesterification reaction (CI) for different formulations using palm oil (PO), sunflower oil (SFO) and palm kernel oil (PRO). More than 3696 SLE problems are solved, allowing the evaluation of how the fraction of each oil, the temperature and the Cl reaction impacts the SFC. The calculated SFC values are compared with experimental data taken from literature. For systems composed of two or one single vegetable oil, the average absolute error (AAE) is 5.2% before Cl and 4.2% after Cl. For systems composed of three vegetable oils, the AAE is 6.3% before CI and 4.2% after Cl. The predictions of SFC before and after Cl reaction can aid the food makers to face the combinatorial problem imposed by the choice of the vegetable oil and its fraction in the blend. Future improvements in the pure component properties, thermodynamic model and distribution model of fatty acids in the triacylglycerols can increase the use of computational approaches allowing the experiments to be focused on the most promising formulations in terms of melting profile. (C) 2013 Elsevier Ltd. All rights reserved.