S. M. Bykova scite author profile

S. M. Bykova

4Publications

4Citation Statements Received

0Citation Statements Given

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Irkutsk State Agrarian University named after A.A. Ezhevsky

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Interaction analysis of the electrotechnological system “emitter-material” in the process of heating and drying of food plant raw materials

Ochirov

Алтухов

Bykova

et al. 2020

IOP Conf. Ser.: Earth Environ. Sci.

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The article considers the heat treating process of edible vegetable raw materials in the system “emitter - material” as the simplest case of heating and drying a homogeneous and isotropic body. It is accepted that the cooling conditions, the ambient temperature and the heat transfer coefficient in time remain constant, and there are no internal heat sources. Based on the study of the fundamental works of famous scientists in the field of food drying, the problem of determining the time constant of raw material heat treatment is solved. This parameter during heat treatment directly depends only on the physical properties of the material, the cooling process on its surface, geometric shape and body size. Knowing the values of the heating time constant, it is possible to determine the time and speed of heating the material to a given temperature.

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Investigation of infrared drying of carrot chips

Ochirov

Алтухов

Bykova

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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The work investigates the process of making chips from carrot root crops. Now fruit and vegetable chips are very popular due to their high concentration of nutrients which significantly increases the calorie content, biological value and assimilation of the product. The lowered moisture content provides the chips with good preservation of concentrates for a long time. Experimental studies were carried out on an experimental infrared drying plant, developed by the staff of the Department of Power Supply and Heat Power Engineering of Irkutsk State Agrarian University. Drying of carrots was carried out in an oscillating mode “heating - cooling” which allows intensifying the drying process and shortening its duration. Recording results on the change in weight and size of carrot slices along the length was carried out every ten minutes. Based on the data taken it was done graphs of the relative mass dependence from the time of infrared drying and we presented the results of studies on the shrinkage of chips.

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Automation of the drying process of agricultural raw materials to obtain products of high nutritional value

Алтухов

Bykova

Лукина

et al. 2020

IOP Conf. Ser.: Earth Environ. Sci.

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The purpose of these studies is to create an automated system for the drying process of agricultural raw materials. This system should be capable of providing biotechnological conditions for heating a single product to preserve especially valuable biological components in this product. Environmental problems of modern society determine the objective of functional nutrition of a person, as the basis of a healthy lifestyle. To solve this problem, it is necessary to obtain products of high nutritional value, with a maximum content of active substances. Each plant product contains not only vitamins and minerals, but also elements that determine its special value. During storage, these components are lost due to biological characteristics and storage conditions. To preserve them for a long period and create a product of high nutritional value, certain conservation methods must be used. Such methods include drying. Products dried in a special way are able to maintain up to 95% of their valuable indicators. An analysis of modern drying methods for plant raw materials showed that the pulse infrared-convection method more closely meets the requirements of biotechnological heating conditions and is therefore suitable for obtaining products of high nutritional value. This method has a sterilizing effect, which allows to increase the shelf life of finished products. The creation of an automated control system for pulse infrared - convection radiation made it possible to obtain products of high nutritional value for long-term storage.

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Применение Возобновляемых Источников Энергии Для Переработки И Сушки Дикорастущего Растительного Сырья

Алтухов¹,

Bykova²,

Лукина³

et al. 2019

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Цель исследования – обоснование применимости возобновляемых источников энергии для технологических процессов сушки и переработки дикорастущего растительного сырья в труднодоступных зонах Байкальского региона Иркутской области и получения качественных продуктов высокой пищевой ценности. Для достижения поставленной цели необходимо решить следующие задачи: провести анализ потенциала дикорастущего растительного сырья, произрастающего в данном регионе и области; оценить возможность использования различных возобновляемых источников по их эффективности и энергозатратам; определить наиболее подходящие методы сушки; обосновать выбор выпускаемых технических устройств, реализующих предпочтенные методы. Объектами исследования являются возобновляемые источники энергии и технические системы, способные реализовать эффективные методы сушки. Для решения поставленных задач были использованы теоретические методы анализа существующих технических средств возобновляемой энергетики, а также устройств для сушки растительного сырья. Кроме того, использовались статистические методы для оценки показателей дикорастущего растительного сырья и экономического потенциала возобновляемых источников энергии. В результате теоретического анализа выяснили, что в Байкальском регионе Иркутской области произрастают более 1733 видов растительного сырья, из которых 224 вида могут использоваться как пищевые. Анализ показывает, что потенциал возобновляемых источников составляет около 10 тыс. т условного топлива. Разбор технических устройств для сушки дикорастущего растительного сырья показал, что средняя мощность установок «Универсал-СД-4» на 25–30 % ниже при одинаковых объемах загрузки (30–120 кг) и равной продолжительности сушки. Для обеспечения энергии установок данного типа наиболее подходят микроГЭС, так как способны создавать необходимую мощность независимо от погодных условий.

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S. M. Bykova

Interaction analysis of the electrotechnological system “emitter-material” in the process of heating and drying of food plant raw materials

Investigation of infrared drying of carrot chips

Automation of the drying process of agricultural raw materials to obtain products of high nutritional value

Применение Возобновляемых Источников Энергии Для Переработки И Сушки Дикорастущего Растительного Сырья

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