发芽龙爪稷、荞麦和黑绿豆制成的功能性面食的优化与品质评价

Optimization and quality evaluation of functional pasta made from germinated finger millet, buckwheat, and black gram.

作者信息

Kushwaha Vijay Shankar, Srivastava Shubhangi, Said Prashant Pandharinath

机构信息

Department of Processing and Food Engineering, College of Agricultural Engineering and Post Harvest Technology, Ranipool, Gangtok, India.

Department of Process Analytics and Cereal Science, University of Hohenheim, Stuttgart, Germany.

出版信息

Food Sci Technol Int. 2024 Jul 21:10820132241264427. doi: 10.1177/10820132241264427.

DOI:10.1177/10820132241264427

PMID:39033433

Abstract

The investigation was conducted to optimize process variables to manufacture functional pasta from composite flour. The selected grains were steeped, germinated, dried, and milled to produce flour. The flours were mixed at optimized proportions (57.31% buckwheat flour, 12.68% finger millet flour, and 30% paheli dal flour) to produce composite flour. The full factorial experimental design opted for optimization of process variables namely, moisture content (mc) (28, 30, 32, and 34%) and mixing speed (60, 80, 100, and 120 rpm). The optimized multi-grain pasta showed shorter processing time, in-range cooking loss, and higher cooking weight and water absorption capacity (WAC). The highest overall acceptability was recorded for multi-grain pasta processed at 60 rpm with an initial mc of 32%. Proximate analysis of optimized multi-grain pasta showed that pasta contained protein (13.95%), crude fiber (5.05%), ash (2.05%), a lower amount of fat (0.74%), and carbohydrates (71.71%).

摘要

进行该研究是为了优化工艺变量，以便用复合面粉制作功能性面食。将选定的谷物进行浸泡、发芽、干燥和研磨以制成面粉。将这些面粉按优化比例（57.31% 荞麦粉、12.68% 龙爪稷粉和 30% 帕赫利豆粉）混合以生产复合面粉。采用全因子实验设计来优化工艺变量，即水分含量（mc）（28%、30%、32% 和 34%）和混合速度（60、80、100 和 120 rpm）。优化后的多谷物面食加工时间更短，煮制损失在范围内，且煮后重量和吸水性（WAC）更高。对于初始水分含量为 32% 且以 60 rpm 加工的多谷物面食，记录到最高的总体可接受性。对优化后的多谷物面食进行的近似分析表明，面食含有蛋白质（13.95%）、粗纤维（5.05%）、灰分（2.05%）、较低含量的脂肪（0.74%）和碳水化合物（71.71%）。

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发芽龙爪稷、荞麦和黑绿豆制成的功能性面食的优化与品质评价

Optimization and quality evaluation of functional pasta made from germinated finger millet, buckwheat, and black gram.

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