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

机译：用于生产即食马铃薯大豆零食的HTST工艺参数的优化

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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).

机译：使用高温短时（HTST）空气膨化工艺开发了即食（RTE）马铃薯大豆零食，发现该方法对于生产高孔隙度和质地轻的零食非常有用。认为工艺参数。膨化温度（185–255°C）和膨化时间（20–60 s），恒定的初始水分含量为36.74％，风速为3.99 ms ^{-1 ，用于混合大豆粉的马铃薯-大豆混合物根据中央复合旋转设计（CCRD），使用响应面方法研究了5％至25％的含量。以最小水分含量（11.03％db），最大膨胀率（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）的最佳产品为10.0％大豆粉在膨化温度（231.0°C）和膨化时间（25.0 s）的加工条件下与马铃薯粉混合。}

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期刊名称 Journal of Food Science and Technology
作者
A. Nath; P. K. Chattopadhyay; G. C. Majumdar;
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作者单位

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年(卷),期 2012(49),4
年度 2012
页码 427–438
总页数 12
原文格式 PDF
正文语种
中图分类营养学;
关键词
Puffing High temperature short time Potato Soy Ready-to-eat Snack food;

机译：膨化;高温短时间;马铃薯;大豆;即食;零食;

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专利

1. Optimization of HTST process parameters for production of ready-to-eat potato-soy snack. [J] . Nath A, Chattopadhyay P. K, Majumdar G. C. Journal of Food Science and Technology . 2012,第4期

机译：HTST工艺参数的优化，以生产即食马铃薯大豆零食。
2. Effect of process parameters and soy flour concentration on quality attributes and microstructural changes in ready-to-eat potato-soy snack using high-temperature short time air puffing. [J] . Nath A., Chattopadhyay P. K. LWT-Food Science & Technology . 2008,第4期

机译：工艺参数和豆粉浓度对即食马铃薯短时高温短时膨化的品质特性和微观结构变化的影响。
3. High Temperature Short Time Air Puffed Ready-To-Eat (RTE) Tapioca-Peanut Snack: Process Parameters Optimization [J] . Chandrakant Ramesh Yewale, Pallab Kumar Chattopadhyay International Journal of Food Engineering . 2014,第1期

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机译：通过响应面法优化PDNI5线材生产过程的影响PDNI5电线工艺参数对伸长率的影响
5. Yüksek bas?n?l? d?küm Prosesinde ürün Kalitesine Etki Eden üretim Parametrelerinin Optimizasyonu =Optimization of production parameters affecting product quality in high pressure casting process [D] . Ayd?n, Ayberk. 2021

机译：高低音？l？l？ D？优化封装过程中产品质量作用的生产参数=在高压铸造过程中影响产品质量的生产参数优化
6. Effect of extrusion process parameters and pregelatinized rice flour on physicochemical properties of ready-to-eat expanded snacks [O] . Yogesh Gat, Laxmi Ananthanarayan 2015

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7. Optimization of some processing parameters and quality attributes of fried snacks from blends of wheat flour and brewers' spent cassava flour [O] . Omidiran Adebukola T., Sobukola Olajide P., Sanni Ajoke, 2016

机译：小麦粉和啤酒糟木薯粉混合物的油炸小吃的某些加工参数和品质属性的优化

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

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