Abstract
The content of vitamins and microelements in vegetable powders, flour of legumes and in bread made with their use was investigated. The degree of staling of gluten-free bread was determined and, on the basis of the obtained regularities, the timing of the sale of special bread was scientifically substantiated and experimentally confirmed. The relevance of the studies carried out is due to the shortage of special dietary consumption products, the under-filling of the market for which is about 23 % of the total production. As a result of the study, it was found that the composition of the powder from carrots of the Daucus carota variety and the powder from the beets of the Beta vulgaris L. variety contained vitamins: А, Е, С, В 1 , В 5 , В 6 , В 9 , В 12 , K, РР and trace elements: Ca, Mg, Fe, Cu, I, Se, Zn. Vitamins A, E, C, В 6 , В 9 , В 12 and microelements: Mg, Fe, Cu, I, Se, Zn are found in soy and chickpea flour. The degree of nutrient retention after the manufacture of specialized bread and after 72 hours of storage has been determined. Losses occur in the content of vitamins A, E, C and trace elements Fe, Cu. After 72 hours of storage, the developed types of bread, provided that 100 g per day are consumed, cover 50 % of the daily requirement for fortified vitamins and microelements. It has been established that the terms of sale of the Protein bread are 48 hours. The sales terms of Carrot and Beet bread are 72 hours, the decrease in the degree of staling of the bread is due to the use of vegetable powders (carriers of pectin), which is confirmed by an increase in the hydrophilic properties of the crumb of bread. The established patterns are important for scientists that they are working on the creation of gluten-free bread for dietary nutrition with improved quality indicators during storage, which is one of the priority and urgent tasks of the food industry
Highlights
Bread is the most readily available mass consumption product
A new technology is proposed [3] for the use of chickpea paste to improve the texture of gluten-free bread
It has been found that chickpea paste exhibits water- and oil-binding and emulsifying properties that can improve the texture of gluten-free bread and extend its shelf life by 12 hours
Summary
Bread is the most readily available mass consumption product. The creation of special dietary food products with improved quality indicators during storage is one of the priority and urgent tasks of the food industry [1, 2]. A new technology is proposed [3] for the use of chickpea paste to improve the texture of gluten-free bread. It has been found that chickpea paste exhibits water- and oil-binding and emulsifying properties that can improve the texture of gluten-free bread and extend its shelf life by 12 hours. It is necessary to develop gluten-free products with high organoleptic characteristics, improved nutritional value and long shelf life [6]. Improve the organoleptic characteristics of bread, the use of carrot and beet powder is justified [7], but the content of vitamins and microelements in the used food ingredients (bean flour and vegetable powders) has not been studied. The content of vitamins and microelements in bread during storage has not been determined, but the degree of staling of the developed gluten-free bread has not been investigated. Relevant for the present is the conduct of this complex of studies, since there is not enough data on solving the above issues, it is necessary to deepen and expand research in this direction
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