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使用响应面法优化生产条件以提高添加咖啡的乳饮料的储存稳定性

Optimization of Manufacturing Conditions for Improving Storage Stability of Coffee-Supplemented Milk Beverage Using Response Surface Methodology.

作者信息

Ahn Sung-Il, Park Jun-Hong, Kim Jae-Hoon, Oh Duk-Geun, Kim Moojoong, Chung Donghwa, Jhoo Jin-Woo, Kim Gur-Yoo

机构信息

Program of Animal Products and Food Science, College of Animal Life Sciences, Kangwon National University, Chuncheon 24341, Korea.

Seoul F&B Co., Ltd., Korea.

出版信息

Korean J Food Sci Anim Resour. 2017;37(1):87-97. doi: 10.5851/kosfa.2017.37.1.87. Epub 2017 Feb 28.

DOI:10.5851/kosfa.2017.37.1.87
PMID:28316475
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5355588/
Abstract

This study aimed at optimizing the manufacturing conditions of a milk beverage supplemented with coffee, and monitoring its physicochemical and sensory properties during storage. Raw milk, skim milk powder, coffee extract, and emulsifiers were used to manufacture the beverage. Two sucrose fatty acid esters, F110 and F160, were identified as suitable emulsifiers. The optimum conditions for the beverage manufacture, which can satisfy two conditions at the same time, determined by response surface methodology (RSM), were 5,000 rpm primary homogenization speed and 0.207% sucrose fatty acid emulsifier addition. The particle size and zeta-potential of the beverage under the optimum condition were 190.1 nm and - 25.94±0.06 mV, respectively. In comparison study between F110 added group (GF110) and F160 added group (GF160) during storage, all samples maintained its pH around 6.6 to 6.7, and there was no significant difference (<0.05). In addition, GF110 showed significantly higher zeta-potential than GF160 (<0.05). The particle size of GF110 and GF160 were approximately 190.1 and 223.1 nm, respectively at initial. However, size distribution of the GF160 tended to increase during storage. Moreover, increase of the particle size in GF160 was observed in microphotographs of it during storage. The L* values gradually decreased within all groups, whereas the a* and b* values did not show significant variations (<0.05). Compared with GF160, bitterness, floating cream, and rancid flavor were more pronounced in the GF110. Based on the result obtained from the present study, it appears that the sucrose fatty acid ester F110 is more suitable emulsifier when it comes to manufacturing this beverage than the F160, and also contributes to extending product shelf-life.

摘要

本研究旨在优化添加咖啡的乳饮料的生产条件,并监测其在储存期间的理化和感官特性。使用原料乳、脱脂奶粉、咖啡提取物和乳化剂来生产该饮料。两种蔗糖脂肪酸酯F110和F160被确定为合适的乳化剂。通过响应面法(RSM)确定的同时满足两个条件的饮料生产最佳条件为:一级均质速度5000 rpm,蔗糖脂肪酸乳化剂添加量0.207%。最佳条件下饮料的粒径和zeta电位分别为190.1 nm和 - 25.94±0.06 mV。在储存期间添加F110组(GF110)和添加F160组(GF160)的比较研究中,所有样品的pH值保持在6.6至6.7左右,且无显著差异(<0.05)。此外,GF110的zeta电位显著高于GF160(<0.05)。初始时,GF110和GF160的粒径分别约为190.1和223.1 nm。然而,GF160的粒径分布在储存期间趋于增加。此外,在储存期间GF160的显微照片中观察到其粒径增加。所有组内L值逐渐降低,而a和b*值无显著变化(<0.05)。与GF160相比,GF110中的苦味、浮油和酸败味更明显。基于本研究获得的结果,就生产这种饮料而言,蔗糖脂肪酸酯F110似乎比F160更适合作为乳化剂,并且也有助于延长产品保质期。

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