Small-scale energy-saving modules with the use of multifunctional devices with intensive hydrodynamics for the production, modification and encapsulation of granules
No Thumbnail Available
Date
2019
Journal Title
Journal ISSN
Volume Title
Publisher
Sumy State University
Technical report
Date of Defense
Scientific Director
Speciality
Date of Presentation
Abstract
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.
Keywords
спрямований рух киплячого шару, направленное движение кипящего слоя, directional motion of the fluidized bed, вільний і обмежений рух, свободное и стесненное движение, free and constraint motion, гранулятор, granulator, гідродинаміка руху потоку, гидродинамика движения потока, hydrodynamic of flow movement, реактивний розпад, распад струи, jet decay, процес дисперсії розплаву, процесс дисперсии расплава, melt dispersion process, чисельні методи, численные методы, numerical methods, оптимізація, оптимизация, optimization, обертається перфорована оболонка активного гідродинамічного режиму, вращающаяся перфорированная оболочка с активным гидродинамическим режимом, rotating perforated shell active hydrodynamic regime, траєкторія, траектория, trajectory, вібрація, вибрация, vibration
Citation
Small-scale energy-saving modules with the use of multifunctional devices with intensive hydrodynamics for the production, modification and encapsulation of granules [Текст] : Development and creation of test equipment for the production of monodisperse droplets from solutions and melts with vibrating influence on the melt stream and the granulation of mineral fertilizers in the vortex gas stream, carrying out of testing: report on research work (intermediate) / manager of research work A. E. Artyukhov. — Sumy : Sumy State University, 2019. — 59 p.