Development and creation of research equipment for modulation and / or encapsulation units of granules with different fluidized bed configuration, carrying out of testing
| Autor: | Artiukhov, Artem Yevhenovych, Manzharov, Andrii Serhiiovych |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2020 |
| Předmět: |
двокомпонентні добрива
porosity vortex granulator granulator hydrodynamic of flow movement two-component fertilizers temperature regime humidification directional motion of the fluidized bed rotating perforated shell active hydrodynamic regime температурний профіль free and constraint motion нанопориста структура numerical methods вихровий гранулятор heating time аміачна селітра пориста структура porous structure nanoporous structure ефективний коефіцієнт теплопровідності мікропори та макропори melt dispersion process зволоження час нагрівання температурний режим micropores and macropores jet decay trajectory effective coefficient of thermal conductivity ammonium nitrate пористість temperature profile vibration temperature regim optimization |
| Popis: | Research object – hydrodynamic and heat-mass exchange characteristics of the target and supporting processes in the granulation modules with intensive hydrodynamics. The aim of the research is a theoretical description and experimental study of the equipment for the production of monodisperse droplets from solutions and melts with vibrating influence on the melt stream and the granulation and drying of mineral fertilizers in the devices with active hydrodynamics. Methodology. Mathematical modeling of hydrodynamic flows was carried out based on the points of classical fluid and gas mechanics and technical hydromechanics. Reliability of the obtained experimental results is based on the application of time-tested in practice methods. Hydrodynamic properties of the liquid jet outflow were obtained. The presented mathematical model allows calculation of the radial component of the jet outflow velocity, as well as determination of the influences of physical and chemical properties of the liquid and the outflow hole diameter on the jet length and flow velocity along the axis to its disintegration into separated drops. The developed mathematical model extended with the theoretical description of the melt dispersion process from rotating perforated shells allowed us to improve design of the granulator to stabilize hydrodynamic parameters of the melt movement. The nitrogen fertilizers melt disperser was investigated regarding industrial-scale production and operating parameters of the process of jet decay into drops, drop size and monodispersity level were optimized. |
| Databáze: | OpenAIRE |
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