Variations of amaranth flour particle size indicator

Khleboproducty Pub Date : 2022-01-01 DOI:10.32462/0235-2508-2022-31-6-37-43

N. Shmalko, I. Nikitin

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Abstract

The quality of baked goods is mainly determined by the baking properties of the processed flour. The size of flour as a factor determining the rate of biochemical and colloidal processes in the dough, the properties of the dough, the quality and yield of bread, is an essential indicator of its baking value. In the techno chemical control of bakery production, the method for determining the size of flour is used as a method for determining the size of its particles and is carried out in accordance with GOST 27560–1987. The essence of the method of sieve analysis of flour is to control the fineness with the separation of the prepared sample into separate fractions, to establish the percentage of waste and passage through a set of sieves in accordance with GOST 4403–1991 and calculation of the average equivalent particle size. The purpose of this work was to analyze the variation in the size of amaranth flour obtained in laboratory and industrial conditions. For the variable attribute of the empirical population - the size of amaranth flour, as a result of the analysis of variations, interval series were constructed to obtain a median value characterizing the weighted average particle size. Sieve analysis of amaranth flour (6 samples) showed that the size of the flour can meet the requirements of GOST 7045–2017 for the content of the residue on a sieve made of silk fabric № 27 and be no more than 2% as for seeded rye flour; the requirement of GOST 7045–2017 for the passage through a sieve made of silk fabric № 38 and be at least 30% as for rye whole flour; the requirement of GOST 26574–2017 for the passage through a sieve of silk fabric № 38 and be at least 35% as for wheat whole flour; the requirement of GOST 26574–2017 for the passage through a sieve made of silk fabric № 38 and be at least 65% as for second grade wheat flour. Variations in the size index of amaranth flour (out of 6 samples) can be arranged in ascending sequence: 173,74 μm < 175,84 μm < 180,31 μm < 193,35 μm < 211,75 μm < 214,32 μm.

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苋菜粉粒度指标的变化

焙烤食品的质量主要取决于加工面粉的焙烤性能。面粉的粒度作为决定面团中生化和胶体过程速率的因素，对面团的性质、面包的质量和产量都有影响，是其烘焙价值的重要指标。在烘焙生产的技术化学控制中，确定面粉粒度的方法被用作确定其颗粒大小的方法，并按照GOST 27560-1987进行。面粉筛分分析方法的实质是通过将制备好的样品分离成不同的馏分来控制细度，根据GOST 4403-1991的规定，建立废渣率和通过一套筛的比例，并计算平均等效粒度。本工作的目的是分析在实验室和工业条件下获得的苋菜粉的大小变化。对于经验种群的可变属性——苋菜粉粒度，通过变异分析，构造区间序列，得到表征加权平均粒度的中值。对苋菜面粉(6个样品)的筛分分析表明，该面粉的粒度可以满足GOST 7045-2017对27号丝织品筛子上残留含量的要求，并且不超过黑麦籽面粉的2%;GOST 7045-2017要求通过蚕丝织物№38制成的筛子，并且至少为黑麦全面粉的30%;GOST 26574-2017对通过38号丝绸织物筛网的要求，并且至少为小麦全面粉的35%;GOST 26574-2017要求通过由丝绸织物№38制成的筛子，并且至少为二级小麦粉的65%。6个样品中苋菜粉粒径指数的变化大小依次为:173、74 μm < 175、84 μm < 180、31 μm < 193、35 μm < 211、75 μm < 214、32 μm。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Khleboproducty

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