Abstract
The aim of the present research was to model the temperature dependence of lipid oxidation rate in water-in-oil emulsions stored at sub-zero temperatures. In fact, the application of the well-known Arrhenius equation resulted precluded in such conditions. To this purpose, the physical state and the oxidation rate of sunflower oil–water emulsions were evaluated from −30 to 60 °C. Results indicate that the rate of oxidation could be considered as a resultant of a complex interplay between the physicochemical changes occurring in the hydrophilic and hydrophobic phases as a consequence of phase transitions. By taking into account the changes in oil viscosity and in the reactant concentration in both lipid and water phase it was possible to set up a mathematical model able to describe the temperature dependence of oxidation rate in multiphase systems in the entire range of temperatures considered.
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