优化 HTST 工艺参数，生产即食土豆-大豆零食。

Optimization of HTST process parameters for production of ready-to-eat potato-soy snack.

机构信息

ICAR Research Complex for NEH Region, Umiam, Meghalaya India.

出版信息

J Food Sci Technol. 2012 Aug;49(4):427-38. doi: 10.1007/s13197-011-0295-2. Epub 2011 Feb 2.

DOI:10.1007/s13197-011-0295-2

PMID:23904651

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3550890/

Abstract

Ready-to-eat (RTE) potato-soy snacks were developed using high temperature short time (HTST) air puffing process and the process was found to be very useful for production of highly porous and light texture snack. The process parameters considered viz. puffing temperature (185-255 °C) and puffing time (20-60 s) with constant initial moisture content of 36.74% and air velocity of 3.99 m.s(-1) for potato-soy blend with varying soy flour content from 5% to 25% were investigated using response surface methodology following central composite rotatable design (CCRD). The optimum product in terms of minimum moisture content (11.03% db), maximum expansion ratio (3.71), minimum hardness (2,749.4 g), minimum ascorbic acid loss (9.24% db) and maximum overall acceptability (7.35) were obtained with 10.0% soy flour blend in potato flour at the process conditions of puffing temperature (231.0 °C) and puffing time (25.0 s).

摘要

即食（RTE）土豆-大豆零食采用高温短时（HTST）空气膨化工艺生产，该工艺非常适用于生产多孔和轻质地的零食。研究了膨化温度（185-255°C）和膨化时间（20-60 s）等工艺参数，膨化初始水分含量为 36.74%，空气速度为 3.99 m.s(-1)，并使用响应面法（RSM）中的中心复合旋转设计（CCRD），对不同大豆粉含量（5%-25%）的土豆-大豆混合物进行了研究。以最小水分含量（11.03% db）、最大膨胀比（3.71）、最小硬度（2,749.4 g）、最小抗坏血酸损失（9.24% db）和最大总体可接受性（7.35）为目标，在膨化温度（231.0°C）和膨化时间（25.0 s）的条件下，获得了 10.0%大豆粉与土豆粉的最佳混合比例。

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