动态超高压微流对马铃薯淀粉脂肪模拟物特性的影响

Starch Pub Date : 2024-09-05 DOI:10.1002/star.202300249
Mingyuan Li, Yaping Yong, Ying Zheng, Suying Hao, Jinhong Wu, Xiaoqing Yang
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引用次数: 0

摘要

采用动态超高压微流控技术,通过超细颗粒处理提高普通酶水解马铃薯淀粉(PS)基脂肪模拟物的应用。使用葡萄糖当量(DE)值为 2.4 的 PS 类脂肪模拟物,评估了处理压力、重复次数和进料浓度对所得超细 PS 类脂肪模拟物的粒度和聚合物分散指数(PDI)的影响。此外,还比较了超细处理前后 PS 基脂肪模拟物的理化性质。结果表明,最佳超微化参数是在进料浓度为 3% 的 200 兆帕条件下进行十次处理。与酶水解脂肪模拟物相比,最佳超细脂肪模拟物的平均粒径为 532.40 nm,PDI 为 0.448。与酶水解 PS 基脂肪模拟物相比,最佳超微粉化处理后的脂肪模拟物的持油量、乳化指数(E1)和乳液稳定性指数都有所提高,而表观粘度、透明度和逆变性则有所降低。最佳处理不仅改变了 PS 基脂肪模拟物颗粒的表面形态,还显著减小了颗粒尺寸和球形颗粒的数量,其基本化学结构未受影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Dynamic Ultra‐High Pressure Microfluidization on the Properties of Potato Starch Fat Mimetics
Dynamic ultra‐high pressure microfluidization technology is employed to enhance the application of common enzymatic hydrolysis potato starch (PS)‐based fat mimetic through ultrafine particle treatment. The individual effects of treatment pressure, repetition, and feed concentration on the particle size and polymer dispersion index (PDI) of the resulting ultrafine PS‐based fat mimetics are assessed using PS‐based fat mimetics with a dextrose equivalent (DE) value of 2.4. Additionally, the physicochemical properties of the PS‐based fat mimetics obtained before and after ultrafine treatment are compared. The results indicate that the optimum ultra‐micronization parameters are subject to ten treatments at 200 MPa with a feed concentration of 3%. The optimal ultrafine fat mimetic has an average particle size of 532.40 nm and a PDI of 0.448, in comparison to enzymatically hydrolyzed fat mimics. Compared with the enzymatically hydrolyzed PS‐based fat mimetic, the oil‐holding capacity, emulsification index (E1), and emulsion stability index are improved, while the apparent viscosity, transparency, and retrogradation decrease in the fat mimetic obtained under the optimal ultra‐micronization treatment. The optimal treatment not only alters the surface morphology of the PS‐based fat mimetic particles but also significantly decreases the particle size and the number of spherical particles, with the underlying chemical structure remaining unaffected.
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