Матеріали конференцій
Постійне посилання колекціїhttps://dspace.nuft.edu.ua/handle/123456789/7498
Переглянути
3 результатів
Результати пошуку
Документ Application of Low-Frequency Mechanical Vibrations for Development of Highly Efficient Continuous Extraction Equipment(Application of Low-Frequency Mechanical Vibrations for Development of Highly Efficient Continuous Extraction Equipment / V. Zavialov, T. Mysiura, N. Popova, Yu. Zaporozhets, V. Chornyi // Design, Simulation, Manufacturing: The Innova-tion Exchange: Book of Abstracts of the 5th International Conference on Design, Simulation, Manufacturing: The Innovation Exchange June 7-10, 2022 | Poznan, Poland p.148, 2022) Zavialov, Volodymyr; Mysiura, Taras; Popova, Nataliia; Zaporozhets, Yuliia; Chornyi, ValentynResearch results of the regularities of pulsating turbulent flows distribution generated with the transport elements of a vibrating extractor for solid-liquid systems with a small difference in phase densities in a non-flowing liquid medium are presented. The experimental results in the entire investigated range of hydrodynamic operating modes of the apparatus are summarized by the dependences by which it becomes possible to determine the distance between vibro-mixing devices, the dimensions of the apparatus, the height of the unloading device for removing the meal, to choose the design of the transporting open element of the plate, to optimize and scale the process.Документ Substantiation of Energy Parameters of a Continuous-Action Vibroextractor for a Solid-Liquid System(2020) Zavialov, Volodymyr; Mysiura, Taras; Popova, Nataliia; Zaporozhets, Yuliia; Chornyi, ValentynThe results of studies on energy consumption for the process of extracting target components with continuous vibration extraction in a solid-liquid system with a small difference in phase densities are presented. The influence of low-frequency mechanical oscillations on energy consumption is substantiated and regularities of their change from the mode parameters of the process are established. It is established that the power required to perform vibration mixing is determined by the fictitious force in the oscillatory motion and the resistance created by the viscous friction of the mixing device in the working environment. Taking into account the fictitious component of the vibrating mixing system, the equation of total energy consumption for the continuous vibration extraction process is obtained. For the interpretation of the obtained experimental dependencies, the energy consumption by the vibration mixing devices was calculated. It has been shown that vibration mixing allows for the efficient use of the energy invested in a unit of work volume, evenly distributing it in the cross-section of the apparatus.Документ Justification of Local Expenditure Characteristics of Vibrotransporting Devices in Design Modeling of Continuous Vibroextractors(2021) Zavialov, Volodymyr; Mysiura, Taras; Popova, Nataliia; Zaporozhets, Yuliia; Chornyi, ValentynExtensive industrial implementation and practical provision of conditions for optimal vibroextraction process, which is based on a new method of countercurrent phase separation and creation of a regime of intensive alternating turbulence of the workflow by pulsating jets, is constrained by the complexity and insufficient study of expenditure characteristics of vibrotransporting devices required for modeling and design of this type apparatuses. For this purpose, the article describes the regularity of pulsating jets propagation generated by transport elements, the dependence of the vibroextractor productivity on the solid phase, and the level of longitudinal mixing by the longitudinal mixing coefficient from determining relative geometric parameters. The mathematical description can be taken as a basis for optimizing problems for the definition of rational operating modes of the vibroextractors having the combined structure of hydrodynamic flows and providing necessary productivity with the minimum effect of longitudinal mixing.