通过乳液脱水法对橄榄油进行微胶囊化：乳液配方和脱水过程的影响

Microencapsulation of Olive Oil by Dehydration of Emulsion: Effects of the Emulsion Formulation and Dehydration Process.

作者信息

Chaabane Donia, Mirmazloum Iman, Yakdhane Asma, Ayari Emna, Albert Krisztina, Vatai Gyula, Ladányi Márta, Koris András, Nath Arijit

机构信息

Department of Food Process Engineering, Institute of Food Science and Technology, Hungarian University of Agriculture and Life Sciences, Ménesi Str. 44, HU-1118 Budapest, Hungary.

Department of Plant Physiology and Plant Ecology, Institute of Agronomy, Hungarian University of Agriculture and Life Sciences, Ménesi Str. 44, HU-1118 Budapest, Hungary.

出版信息

Bioengineering (Basel). 2023 May 28;10(6):657. doi: 10.3390/bioengineering10060657.

DOI:10.3390/bioengineering10060657

PMID:37370587

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10295445/

Abstract

Microencapsulation of extra virgin olive oil has been taken into consideration. Initially, emulsions were prepared using extra virgin olive oil and aqueous solutions of different proportions of maltodextrin (MD) having dextrose equivalent (DE) 19 and whey protein isolates (WPI), such as 100% MD, 100% WPI, 25% MD + 75% WPI, 50% MD + 50% WPI and 75% MD + 25% WPI. Subsequently, emulsions were used for dehydration by either spray-drying (SD) or freeze-drying (FD) to produce olive oil microcapsules. Emulsion stability, viscosity and droplet size influenced the characteristics of the microcapsules. The highest encapsulation efficiency was achieved using 50% MD + 50% WPI in the emulsions with subsequent SD. The moisture content of the microcapsules increased with increasing proportions of MD. The size of the microcapsules increased with increasing proportions of WPI. The bulk density and tapped density were reduced with higher proportions of MD in the microcapsules. Furthermore, microcapsules with a higher proportion of MD exhibited poor flowability and high cohesiveness. Microcapsules from the higher proportion MD emulsions, followed by SD were spherical with a smooth surface; however, microcapsules with dent structures were produced from 100% WPI in the emulsions with subsequent SD. Microcapsules, produced from emulsions with a higher proportion of WPI, followed by FD were flat flakes and had irregular surfaces.

摘要

特级初榨橄榄油的微胶囊化已被纳入考虑范围。最初，使用特级初榨橄榄油以及不同比例的具有19葡萄糖当量（DE）的麦芽糊精（MD）和乳清蛋白分离物（WPI）的水溶液制备乳液，例如100% MD、100% WPI、25% MD + 75% WPI、50% MD + 50% WPI和75% MD + 25% WPI。随后，通过喷雾干燥（SD）或冷冻干燥（FD）对乳液进行脱水以生产橄榄油微胶囊。乳液的稳定性、粘度和液滴大小影响了微胶囊的特性。在乳液中使用50% MD + 50% WPI并随后进行SD可实现最高的包封效率。微胶囊的水分含量随着MD比例的增加而增加。微胶囊的尺寸随着WPI比例的增加而增大。微胶囊中MD比例较高时，其堆积密度和振实密度会降低。此外，MD比例较高的微胶囊表现出较差的流动性和高粘性。由较高比例MD乳液经SD制备的微胶囊呈球形且表面光滑；然而，在乳液中使用100% WPI并随后进行SD会产生具有凹痕结构的微胶囊。由较高比例WPI乳液经FD制备的微胶囊为扁平薄片且表面不规则。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2bac/10295445/88a586ef4c48/bioengineering-10-00657-g001.jpg

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通过乳液脱水法对橄榄油进行微胶囊化：乳液配方和脱水过程的影响

Microencapsulation of Olive Oil by Dehydration of Emulsion: Effects of the Emulsion Formulation and Dehydration Process.

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