改进氨基酸组成的面粉复合体系的开发

Pub Date : 2023-10-28 DOI:10.15673/fst.v17i3.2652
T. Matveeva, V. Papchenko, P. Petik, V. Khareba, O. Khareba
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引用次数: 0

摘要

研究了改进氨基酸组成的复合面粉体系的数学计算问题。为了建立这样的系统,建议使用油籽加工的二次产品-粕,即大豆、亚麻籽和向日葵。使用指定膳食的便利性得到了证实。强调为了为面粉产品生产中使用新原料创造科学依据和实践方向,需要对其组成、理化性质以及对成品质量的影响进行综合研究。通过实验测定了这些蛋白和小麦粉的氨基酸组成。计算氨基酸得分。特别注意的是油籽粕组成的数学计算,在氨基酸组成方面,它尽可能接近参考蛋白质。测定了组合物中大豆、亚麻籽和葵花籽粕蛋白的质量分数分别为:0.51、0.2和0.29。确定了所得粕组合物的氨基酸组成和蛋白质的生物学价值。结果表明,对于赖氨酸等氨基酸,复合面粉的硫(蛋氨酸+胱氨酸)含量和苏氨酸氨基酸评分比小麦粉提高了0.7 ~ 2倍。改进后的氨基酸组成中大豆、亚麻籽和葵花籽粕的比例为:44:25:31。数学计算了组成中含有90-80%小麦粉和10-20%油籽粕的系统中必需氨基酸的含量和比例。研究结果表明,这两种体系的水分指数基本相同,酸度指数略高于优质小麦粉的指数(4.68度对3.03度)。对面包进行了试制,并与优质小麦粉制成的面包进行了感官、理化参数的比较。以复合面粉体系为基础的面包样品,其含水率为39.34%;孔隙率- 77.15%;酸度- 1.83度。所开发系统的特点使其易于引入到现有企业生产烘焙产品的工艺流程中。
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DEVELOPMENT OF FLOUR COMBINED SYSTEMS WITH IMPROVED AMINO ACID COMPOSITION
Questions of mathematical calculation of combined flour systems with improved amino acid composition have been studied. To create such systems, it is proposed to use secondary products of oilseeds processing – meal, namely soybean, linseed and sunflower. The expediency of using the indicated meals is substantiated. It is emphasized that in order to create scientific foundations and practical directions for the use of new raw materials in the production of flour products, comprehensive studies are needed to study its composition, physical and chemical properties, as well as the impact on the quality of finished products. The amino acid composition of the proteins of these meals and wheat flour was experimentally determined. Calculated amino acid score. Particular attention is paid to the mathematical calculation of the composition of oilseed meal, which, in terms of amino acid composition, is as close as possible to the reference protein. The mass fractions of soybean, flaxseed and sunflower meal proteins in the composition were determined, namely: 0.51, 0.2 and 0.29, respectively. The amino acid composition and the biological value of the protein of the obtained meal composition were established. It was shown that for such amino acids as lysine, the amount of sulphurous (methionine + cystine) and threonine amino acid score of combined flour systems increased by 0.7–2 times compared to that of wheat flour. The ratio of soybean, linseed and sunflower meal in the composition of the improved amino acid composition in percentage terms was obtained: 44:25:31. Mathematically calculated the content and rate of essential amino acids in systems, which in their composition contain 90–80% wheat flour and 10–20% composition of oilseed meal. The results of studies of such systems showed that the moisture index is almost the same, and the acidity index is slightly higher than the index (4.68 versus 3.03 degrees) for premium wheat flour. Trial baking of bread was carried out, it’s organoleptic, and physico-chemical parameters were determined in comparison with bread based on premium wheat flour. In a bread sample based on combined flour systems, the moisture content is 39.34%; porosity – 77.15%; acidity – 1.83 degrees. The characteristics of the developed systems make it easy to introduce it into the technological process of existing enterprises for the production of bakery products.
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