Semiempirical Method for Determining the Velocities of Phases During Fluidization and Settling in a Self-Similar Region

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Autores: Trushin A.M.¹, Nosyrev M.A.¹, Ravichev L.V.¹, Frolova S.I.¹, Sal’nikova L.S.¹, Yashin V.E.¹
Afiliações:
1. Mendeleev University of Chemical Technology of Russia
Edição: Volume 57, Nº 4 (2023)
Páginas: 408-411
Seção: Articles
##submission.datePublished##: 01.07.2023
URL: https://jdigitaldiagnostics.com/0040-3571/article/view/652870
DOI: https://doi.org/10.31857/S0040357123040140
EDN: https://elibrary.ru/VJTNVR
ID: 652870

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Resumo
Sobre autores
Bibliografia
Arquivos suplementares
Estatísticas

Resumo

An expression is obtained for determining the dimensionless velocity in the processes of settling and fluidization for spherical, cylindrical, and cubic particles in a self-similar region.

Palavras-chave

dimensionless velocity during settling and fluidization, porosity, spherical and nonspherical particles, self-similar region of motion

Sobre autores

A. Trushin

Mendeleev University of Chemical Technology of Russia

Email: vnissok@list.ru
125047, Moscow, Russia

M. Nosyrev

Mendeleev University of Chemical Technology of Russia

Email: vnissok@list.ru
125047, Moscow, Russia

L. Ravichev

Mendeleev University of Chemical Technology of Russia

Email: vnissok@list.ru
125047, Moscow, Russia

S. Frolova

Mendeleev University of Chemical Technology of Russia

Email: vnissok@list.ru
125047, Moscow, Russia

L. Sal’nikova

Mendeleev University of Chemical Technology of Russia

Email: vnissok@list.ru
125047, Moscow, Russia

V. Yashin

Mendeleev University of Chemical Technology of Russia

Autor responsável pela correspondência
Email: vnissok@list.ru
125047, Moscow, Russia

Bibliografia

Davidson J., Harrison F. Fluidization. Academic Press. London and New York. 1971. P. 847.
Couper J.R., Penney W.R., Fair J.R., Walas S.M. // Gulf professional publishing. 2005. P. 801
Trushin A.M., Dmitriev E.A., Nosyrev M.A. The Use of the Variation Method to Define the Velocity of Constrained Turbulent Motion of Disperse Particles in Liquid // Theor. Found. Chem. Eng. 2017. V. 51. № 2. P. 155–158. [Трушин А.М., Дмитриев Е.А., Носырев М.А. Использование вариационного метода для определения скорости стесненного турбулентного движения дисперсных частиц в жидкости // Теорет. основы хим. технологии. 2017. Т. 51. № 2. С. 86–89].
Giusti A., Lucci F., Soldati A. Influence of the lift force in direct numerical simulation of upward/downward turbulent channel flow laden with surfactant contaminated microbubbles // Chemical Engineering Science V. 60. № 6. P. 6176–6187
Bakker P.J., Heerties P.M. Porosity distributions in a fluidized bed // Chemical Engineering Science V. 12. № 4. 1960. P. 260–271
Равичев Л.В., Беспалов А.В. К расчету порозности псевдоожиженного зернистого катализаторного слоя // Химическая промышленность сегодня. 2007. № 1. С. 4–9.

Arquivos suplementares

Arquivos suplementares

Ação

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Declaração de direitos autorais © А.М. Трушин, М.А. Носырев, Л.В. Равичев, С.И. Фролова, Л.С. Сальникова, В.Е. Яшин, 2023

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