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Sugar beet production in Russia | Производство сахарной свеклы в России
2020
Zimnyakov V.M. | Kurochkin A.A.
The current state of sugar beet production in Russia is considered. The dynamics of changes in the acreage of sugar beet in Russia from 2010 to 2019 is presented. The analysis of sugar beet production volumes both in the Russian Federation as a whole and in the context of Federal districts is given. The main region for sugar beet production in Russia is the Krasnodar territory, which produced 10563.9 thousand tons of sugar beet in 2019, which is 20.8% of the total production in the country. The yield of sugar beet by key producing regions in 2019 is presented. The highest yield of sugar beet in 2019 is also in the Krasnodar territory (521.2 C / ha). The forecast of development of sugar beet production in Russia in the near future is given.
Mostrar más [+] Menos [-]Justification of the technology of composite extruded mixture of wheat grain and grape seeds | Обоснование технологии композитной экструдированной смеси зерна пшеницы и виноградных косточек
2020
Kurochkin A.A. | Kruchinina N.E.
The article summarizes information about the technologies of composite mixtures linked by a single concept and based on the principles of thermal vacuum plastic extrusion. Classification features of such technologies, as well as their main parameters, are presented and justified. Rational values of the composition of mixtures in terms of the ratio and humidity of the ingredients included in them are given. The conclusion is made about the prospects of using composite mixtures in the technologies of functional or enriched bakery and flour confectionery products.
Mostrar más [+] Menos [-]Unmanned agriculture: overview and improvement concept | Беспилотные аппараты для сельского хозяйства: обзор и концепция совершенствования
2020
Skopintsev K. Yu. | Nikitin D.V.
The analysis of the current state of robotic means for agriculture is considered. As the analysis has shown, the current trend in the development of robotics for agriculture is aimed at creating unmanned vehicles consisting of various technical and intelligent systems that need to be integrated and correctly synchronized for the efficient performance of agricultural operations. At the same time, the priority task of creating new and improving existing designs of unmanned vehicles for performing a complex of mechanized work in agriculture is the creation of a cheap, competitive product with a simple interface and a low entry threshold for the operator of the vehicle. In this regard, at the research stage, it is important to lay the foundation for a phased concept for the development and improvement of domestic robotics in the agro-industrial complex. At the first stage of the proposed concept, it is necessary to develop a simple, commercially available product for farms and peasant farms that carries out multi-parameter control over the fleet of technical means. At the second stage, it is necessary to show the maximum practical benefit of robotic solutions used without deep interventions in the design of the technical means, leaving the choice of process control. Based on the experimental developments of the second stage, the third stage involves the creation of a working version of technical vision capable of determining the characteristics of plants (stages of maturation, diseases), recognizing humans, insects, obstacles, road irregularities, road parameters such as: hard surface or field road. In this case, the system must transmit / receive data within the agricultural ecosystem, as well as create templates for the movement of a technical vehicle. The final stage of the concept involves the development of a control system for a technical facility without human intervention on highways, fields, industrial areas and rough terrain. The proposed concept will make it possible to design and develop a new generation of unmanned aerial vehicles for efficient agricultural operations.
Mostrar más [+] Menos [-]Evaluation of some parameters of an energy-saving extruder | Оценка некоторых параметров энергосберегающего экструдера
2020
Kurochkin A.A. | Sheptak T.V.
The paper presents one of the variants of the design and technological scheme of the extruder, which allows energy-saving thermal vacuum processing of vegetable raw materials. Theoretical dependences are proposed that allow analyzing the effect of the thermal vacuum effect on the parameters of water vapor removed from the inter-wall space of the loading chamber of the upgraded extruder. The relation of the coefficient that takes into account the effect of the thermal vacuum effect in an autogenic single-screw extruder on other significant technical and technological indicators of the machine is shown.
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