期刊
FOOD HYDROCOLLOIDS
卷 136, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2022.108227
关键词
Antioxidant; Lipid oxidation; Bulk oil; Non-linear hypothesis; Water-in-oil emulsion
This study assesses the factors affecting the oxidation of water-in-oil emulsions by evaluating the initial oxidation rate and long-term oxidative stability. The results demonstrate that the presence of the oil-water interface exacerbates lipid oxidation and the oxidation rate is independent of initial droplet size. The difference in oxidative stability between coarse and nanoemulsions depends on changes in droplet size during storage and the formation of reverse micelles. The addition of antioxidant esters has a significant impact on lipid oxidation, with efficacy limited by the alkyl chain length. Octyl gallate exhibits a dual effect by reducing interfacial tensions at both the oil-water and oil-air interfaces.
In order to gain an in-depth understanding of the factors affecting the oxidation of water-in-oil (W/O) emulsions, both initial oxidation rate and long-term oxidative stability were applied to assess the degree of oxidation of W/O emulsions. The results showed that the generation of the oil-water interface exacerbated lipid oxidation in W/O emulsions and the oxidation rate was independent of the initial droplet size (8 days). The difference in oxidative stability between coarse and nanoemulsions depended on the change in droplet size during storage and the formation of reverse micelles by the excess polyglycerol polyricinoleate (PGPR). The antioxidant (AO) esters with different alkyl chain lengths were added to the W/O emulsions to assess the effects of AO partitioning on lipid oxidation. The lipid oxidation results confirmed the applicability of the non-linear hypothesis in W/O emulsions. There was a critical chain length (CCL, octyl gallate, C8). Below or above CCL, the efficiency of the AOs decreased. C8 showed a 'dual effect', acting at both the oil-water and oil-air interface (interfacial tensions reduced by 0.36 and 4.66 mN/m, respectively). Future research should focus on means of effectively migrating AOs from the two phases to the oil-water interface to delay lipid oxidation.
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