Enviar artigo por via de e-mail Semiempirical Method for Determining the Velocities of Phases During Fluidization and Settling in a Self-Similar Region
- 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
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Afiliações:
- 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://ogarev-online.ru/0040-3571/article/view/138508
- DOI: https://doi.org/10.31857/S0040357123040140
- EDN: https://elibrary.ru/VJTNVR
- ID: 138508
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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.
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.
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