Ruslan Ostroha scite author profile

This article is devoted to a detailed description of the developed physical model of the pneumatic classification process for detecting the rotating suspended layer and ensuring the frequency of loading and unloading of a pneumatic classifier. The related mathematical model is developed for estimating the non-stationary concentration of fine particles in a gas-dispersed flow with respect to time and height of the working space of the apparatus. The research is aimed at developing a pneumatic classification method for granular materials using a rhomb-shaped apparatus and ensuring the reliability of the operating process based on the influence of the flow on the granular material concentrations. The obtained experimental results allow evaluating the rational geometrical parameters of the working space in pneumatic granulators, as well as verifying the proposed mathematical model based on the implementation of the quasi-linear regression procedure. It is shown that the rhomb-shaped pneumatic classifier provides effective separation of granular material, reaching up to 95% of the target fraction. As a result, the proposed methodology can be implemented for optimizing geometrical profiles of pneumatic classifiers in terms of defining the required technological parameters of the pneumatic classification process.

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Granulation Process of the Organic Suspension: Fluidized Bed Temperature Influence on the Kinetics of the Granule Formation

Ostroha

Yukhymenko

Lytvynenko

et al. 2018

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Investigation of the kinetic laws affecting the organic suspension granulation in the fluidized bed

Ostroha

Yukhymenko

Yakushko³

et al. 2017

EEJET

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Обґрунтовано доцільність і перспектив-ність виробництва органічних добрив в гра-нульованому вигляді. Запропоновано в якості органічної суспензії використовувати рідкий курячий послід. Експериментально встанов-лено температурні режими процесу грану-лювання курячого посліду та визначено робо-чий режим. Отримано критеріальне рівняння для визначення коефіцієнту тепловіддачі від теплового агента до поверхні частинок під час випаровування рідкої фази суспензії Ключові слова: гранулювання, апарат кип-лячого шару, органічна суспензія, курячий послід, температурний режим Обоснована целесообразность и перспек-тивность производства органических удобре-ний в гранулированном виде. Предложено в ка-честве органической суспензии использовать жидкий куриный помет. Экспериментально установлены температурные режимы про-цесса гранулирования куриного помета и опре-делен рабочий режим. Получено критериаль-ное уравнение для определения коэффициента теплоотдачи от теплового агента к поверх-ности частиц при испарении жидкой фазы суспензии Ключевые слова: гранулирование, аппарат кипящего слоя, органическая суспензия, кури-ный помет, температурный режим UDC 661.152.4:66.096.5

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Cooling Process Intensification for Granular Mineral Fertilizers in a Multistage Fluidized Bed Device

Yukhymenko

Ostroha

Lytvynenko

et al. 2020

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Ruslan Ostroha

Estimation of gas flow dustiness in the main pipelines of booster compressor stations

Ensuring the Reliability of Pneumatic Classification Process for Granular Material in a Rhomb-Shaped Apparatus

Granulation Process of the Organic Suspension: Fluidized Bed Temperature Influence on the Kinetics of the Granule Formation

Investigation of the kinetic laws affecting the organic suspension granulation in the fluidized bed

Cooling Process Intensification for Granular Mineral Fertilizers in a Multistage Fluidized Bed Device

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