I. A. Kechkin scite author profile

I. A. Kechkin

4Publications

15Citation Statements Received

26Citation Statements Given

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Affiliations

All-Russian Scientific Research Institute of Grain and Products of its Processing, Plekhanov Russian University of Economics, K.G. Razumovsky Moscow State University of Technologies and Management

Publications

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Dependence of fat acidity value on wheat grain storage conditions

et al. 2020

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The article presents the dependence of the fat acidity value (FAV) on the values of humidity and temperature, the relationship between the storage duration for wheat grain and FAV. To establish the expiration date of wheat grain during long-term storage, the author of the article considered the fat acid value (FAV) in mg of KOH. Storage temperature and relative air humidity in a desiccator affect the change (growth) of fat acidity value. The greatest changes occurred at 6 th , 7 th and 8 th months of storage at a relative air humidity of more than 65 % and temperatures above 20 °C. At a storage temperature of 10 °C, in all cases the growth of FAV remained insignificant and was within the limits of determination accuracy. It is noted that when the relative humidity was below 60 %, while the temperature was the same as in the previous case, the FAV of wheat grain was practically unchanged through the 6-month storage period.

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Management of air flows inside steel silo during grain storage

et al. 2020

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A study was conducted concerning effects of temperature and relative air humidity during longterm storage of wheat grain in a steel silo. The study was aimed at identifying the possibility of condensed moisture appearing under the silo roof. The probable periods of condensate in the space under the silo roof depending on the temperature difference inside and outside the silo have been determined. Some ways to prevent the condensate formation are proposed in the paper.

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Technological Schemes for the Processes of Preparation and Milling Binary Grain Mixtures and Biochemical Evaluation of Produced Products

et al. 2020

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A study of the preparation and milling of a grain mixture containing 7% of flax seeds has been carried out in order to obtain a composite wheat-flax flour, in which the entire biopotential of flax seeds was preserved. It was revealed that the preparation of the components of the grain mixture should be carried out independently, in parallel flows. During the wheat grain preparation the cold conditioning was carried out, the modes of which were the following: humidity — 15.5%, dwell time in the water — 24 hours. The optimal conditions for milling the wheat-flax mixture have been determined, which are the following: yield (%) / ash content (%) in 3 break systems (in terms of the 1st break system — grain) for the first break system — 53.5 / 1.00; for the second break system. — 22.2 / 1.11; totally for the first and the second break systems — 75.7 / 1.035; totally for the first, the second and the third break systems — 81.0 / 1.1. The technological schemes have been developed and the new varieties of wheat-flax flour with predetermined technological properties and increased nutritional value have been formed. The approximate indices of yield and quality of the new wheat-flax flour varieties are the following: Flour A — yield 45–50%, lipids 3.6–4.0%, protein 13–13.5%, ash 0.55–0.70%, whiteness — 50 conventional units; Flour B — yield 20–25%, lipids 5.5–6.0%, protein 14–14.5%, ash 0.9–1.25%, whiteness — 22 conventional units; Flour C — yield 70–75%, lipids 4.5–5.0%, protein 13.6–14.0%, ash 0.75–0.90%, whiteness — 36 conventional units. It was indicated that the total lipids content in flour from two-component mixtures increases by about 4 times, and the total protein content in the studied samples increases by 1–2%. The content of linoleic acid (ɷ‑6) in wheat-flax flour samples is 1.6…3.3 times higher than in wheat flour; the content of linolenic acid (ɷ‑3) in wheat-flax flour samples is 36.8…57.2 times higher than in wheat flour (taking into account the total lipids content in the samples). The enrichment of wheat flour due to flax seeds allows to make up the deficiency of PUFA family in the diet of a modern person and to obtain products on a grain basis of a balanced composition.

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Development of technological schemes for the processes of preparation and milling of two-component grain mixtures

Pankratov

Vitol

Meleshkina

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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A study of the preparation and milling of a grain mixture containing 7% of flax seeds has been carried out in order to obtain a composite wheat-flax flour, in which the entire biopotential of flax seeds was preserved. During the wheat grain preparation the cold conditioning was carried out, the modes of which were the following: humidity - 15.5%, dwell time in the water - 24 hours. The optimal conditions for milling the wheat-flax mixture have been determined, which are the following: yield (%) / ash content (%) in 3 break systems (in terms of the 1st break system - grain) for the first break system - 53.5 / 1.00; for the second break system. - 22.2 / 1.11; totally for the first and the second break systems - 75.7 / 1.035; totally for the first, the second and the third break systems - 81.0 / 1.1. The technological schemes have been developed and the new varieties of wheat-flax flour with predetermined technological properties and increased nutritional value have been formed. The approximate indices of yield and quality of the new wheat-flax flour varieties are the following: Flour A - yield 45-50%, lipids 3.6-4.0%, protein 13-13.5%, ash 0.55-0.70%, whiteness–50 conventional units; Flour B - yield 20-25%, lipids 5.5-6.0%, protein 14-14.5%, ash 0.9-1.25%, whiteness - 22 conventional units; Flour C - yield 70-75%, lipids 4.5-5.0%, protein 13.6-14.0%, ash 0.75-0.90%, whiteness - 36 conventional units.

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I. A. Kechkin

Dependence of fat acidity value on wheat grain storage conditions

Management of air flows inside steel silo during grain storage

Technological Schemes for the Processes of Preparation and Milling Binary Grain Mixtures and Biochemical Evaluation of Produced Products

Development of technological schemes for the processes of preparation and milling of two-component grain mixtures

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