Егор Валерьевич Казанцев scite author profile

Егор Валерьевич Казанцев

4Publications

3Citation Statements Received

0Citation Statements Given

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Affiliations

All-Russian Scientific Research Institute of Confectionery Industry, All-Russian Scientific Research Institute of Refrigeration Industry, Scientific Research Institute of the Cable Industry

Publications

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Influence of different types of hydrocolloids on the structure and preservation of sugary confectionery with a jelly structure consistency: a Review

Казанцев¹,

Кондатьев

Osipov

et al. 2020

Vestn. Voronež. gos. univ. inž. tehnol.

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Quality is a time-varying, complex property of a confectionery that shows a measure of acceptability for the customer and rapidly or slowly deteriorates after the manufacture of foodstuffs. The safety of raw materials and finished products during storage is the most important task of global importance, according to WHO, in 2020 year. One of the important problems in the confectionery industry is to ensure long shelf life of confectionery products without reducing their taste properties, as exemplified by jelly marmalade. The task of preserving the freshness of the product is to preserve its consistency, taste, smell, appearance by retaining moisture and preventing damage by microorganisms. Freshness criterion for long shelf life is one of the main factors affecting the sales and competitiveness of sugary confectionery. The aspects of the influence of the properties of structure-forming agents (pectins, agars, modified starches) on the formation of a gelatinous consistency and storage of marmalade are considered. The physical and chemical indicators characterizing the process of moisture transfer in the body of the marmalade during storage are indicated. To assess the migration of moisture during storage, the graphical dependence of aw on the mass fraction of moisture in the marmalade is used - the isotherm of moisture sorption. Analysis of the obtained data of desorption isotherms can serve as a useful tool that shows what proportion of moisture a product is capable of receiving or giving away without losing the properties that characterize the quality of a particular confectionery product. Modern methods are indicated in assessing the quality function of marmalade using a mathematical equation to predict its storage capacity. An integrated approach to ensure the safety of marmalade is considered, which allows predicting its shelf life

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The main factors of marmalade molecular structure formation

et al. 2021

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The pressing challenge of ensuring long shelf life for confectionery product without changing their flavor is considered. The patterns were revealed for the influence of the chemical composition of raw materials on the jelly marmalade structure. The influence of glucose syrup and gelling agent contents on the physicochemical and rheological properties of jelly marmalade was investigated. An increase in the mass fraction of glucose syrup from 5% to 25% leads to an increase in the elastic and plastic properties of jelly marmalade. The ratio of the main ingredients forms the molecular structure of jelly marmalade and thereby affects the dependence of moisture content on the water activity. The correlation between the water activity and the hardness of jelly marmalade has been established. The highest hardness and water activity were observed in products containing 15% glucose syrup, which determines the highest moisture transfer rate for such products. The use of modified starch allows controlling the moisture losses during marmalade storage. Formulation adjustment and moisture content decrease in the marmalade significantly reduce the risk of undesirable sensory changes on the surface of the marmalade during its storage. Various types of modified starch may control the shelf life of jelly fruit marmalade. An increase in reducing substances concentration during the storage of jelly-like confectionery products contributes to their moistening. On the other hand, a decrease in reducing substances concentration leads to granulation in products. It is shown how a change in the main ingredients ratio of jelly marmalade affects the formation of its molecular structure, which determines the free/bound moisture ratio. The obtained results allow controlling the quality and predicting the safety of jelly-like confectionery products.

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Management of moisture transfer processes during the storage of confectionery with a jelly-like consistency

Казанцев

Кондратьев

Osipov

et al. 2021

Vestn. Voronež. gos. univ. inž. tehnol.

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During storage, confectionery products of a gelatinous consistency are subject mainly to physical changes, such as staleness or moisture, however, there are some cases of their "mold" or fermentation, which are caused by moisture transfer processes, and the driving force is the gradient of water activity. The rate of transition of water from one phase to another depends on the difference between the equilibrium and working concentrations, the physical properties of the system and the "hydrodynamic setting" of the process. The relationship between the factors is established using the equations of diffuse kinetics. The influence of various factors on the processes of moisture transfer of confectionery products of a jelly-like consistency was investigated using the example of jelly-fruit marmalade. It is shown that an increase in storage temperature by 10 °C leads to an increase in the rate of moisture transfer of jelly-fruit marmalade, made without the use of modified starch, by a factor of 2.2. The use of 2% different types of modified starch allows to reduce the rate of moisture transfer of jelly-fruit marmalade by 1.3–1.7 times. The use of modified starch E1412 reduces the rate of moisture transfer by 1.7 times as compared to the control sample of marmalade without the addition of modified starch. The use of modified starch E1401 in the manufacture of jelly marmalade predicts an increase in the preservation of products (no "crust" during storage). To predict moisture loss during storage of confectionery products of a gelatinous consistency, it is proposed to use the molecular diffusion coefficient, which allows to substantiate the type of structurant, the thickness of the packaging used and the storage temperature of products with a given shelf life. The molecular diffusion coefficient of jelly-fruit marmalade ranges from 0.56 ? 10-13 m2/s to 2.04 ? 10-13 m2/s. The maximum coefficient corresponds to the highest rate of moisture transfer processes.

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The influence of the amount of caramel syrup on the processes of moisture transfer during the storage of marmalade

Кондатьев

Казанцев

Osipov

et al. 2021

Vestn. Voronež. gos. univ. inž. tehnol.

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Storage problems for various types of confectionery products are associated with the physical state of the contained water and its migration processes. This work is aimed at predicting the storage capacity and increasing the shelf life of various groups of marmalade. The influence of the content of caramel syrup (5 - 25%) in jelly marmalade (JM) on apple (YP) and citrus (CP) pectin on the processes of moisture transfer during storage of products packed in BOPP film 20, 40 microns has been investigated. The composition and amount of molasses forms the features of the phase transitions of sugars and the ratio of free and bound moisture, which has a significant effect on the texture and organoleptic properties of FMs during storage. Moisture migration was characterized by the mass fraction of moisture and water activity. The results showed that over 12 weeks of storage, the moisture content of the sample with CP, containing 5% molasses, decreased from 22.0% to 19.6%, the rate of decrease in the mass fraction of moisture was 0.2% per week. For a sample containing 25% molasses, the rate of decrease in the mass fraction of moisture was 0.4% per week. For 12 weeks of storage, the mass fraction of moisture in the sample with NP, containing 25% molasses, decreased from 22.0% to 19.6%. As a result, for a sample made with YF containing 25% molasses, the rate of decrease in the mass fraction of moisture was 0.2% per week, and containing 5% molasses - only 0.1% per week. An increase in the mass fraction of molasses from 5.0% to 25.0% in the chemical composition of the FM leads to an increase in the rate of moisture transfer, approximately two times, while the water activity of the products practically does not change during storage and is 0.750 - 0.760. With an increase in the thickness of the polypropylene film from 20 ?m to 40 ?m, the rate of moisture transfer processes decreases approximately two times.

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