Crystallization Enhancement by a High Behenic Acid Stabilizer in a Palm Oil-Based Model Fat Blend and its Corresponding Fat-Reduced Water-in-Oil Emulsion

A high behenic stabilizer (HBS) at concentrations of 0.3%25, 0.6%25, and 0.9%25 w/w was added to the oil phase of a fat-reduced water-in-oil (W/O) emulsion intended for margarine manufacture. The crystallization kinetics, thermal behavior, and microstructure of an oil phase and its 35/65 w/w fat-reduced W/O emulsion were studied. The oil phase was composed of a palm oil-based model fat blend, three emulsifiers, and the HBS. Differential scanning calorimetry results showed that, when 0.9%25 of stabilizer was added, the crystallization started 2.5 °C higher than when no HBS was added, hence reducing the time needed for crystallization. Polarized light microscopy results showed that the cocrystallization of the high-melting triacylglycerols of the oil phase with the HBS significantly decreased the fat crystal size and increased the number of crystals. The solid fat content also was increased by 2.4%25. Interfacial tension experiments corroborated that HBS was located in the oil phase and not at the emulsion interface. This work shows that margarine can be successfully manufactured by adding 0.9%25 HBS to a 35/65 w/w fat-reduced W/O emulsion without losing functionality, as shown by the presence of the β′ polymorph. This work also suggests that 15%25 fat could be removed from the system without changing functionality by merely adding up to 0.9%25 of HBS. © 2021 AOCS

Crystallization enhancement; High behenic acid stabilizer; Palm oil; Structuration; Water-in-oil emulsion Crystallization kinetics; Differential scanning calorimetry; Emulsification; Emulsions; Behenic acids; Cocrystallization; Emulsion interfaces; Solid fat content; Thermal behaviors; Triacylglycerols; W/O emulsions; Water in oil emulsions; Palm oil

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