Investigation of vibrofluidized granular layer modes using OpenFOAM

Vibrofluidization is widely used in various industrial processes. So the study of vibrofluidization modes is current research. In this paper we investigated the modes of vibrofluidized layer using the package OpenFOAM. The results of modelling of the vibrofluidized layer dynamics at different values of the amplitude and frequency of oscillations, the thickness of the filling, were presented. The modes in which layer becomes unstable were identified. Wavelets formed from granular material and the jetting channels appear in these modes

OpenFOAM, twoPhaseEulerFoam, режимы виброкипения, vibrofluidized layer, granular material, mathematical modeling, OpenFOAM, twoPhaseEulerFoam, vibrofluidization modes

1. N.S. Orlova. Testirovanie dvuh modeley vibroozhizhennogo sloya. [Testing of two models of vibrofluidized layer]. Izvestiya vuzov. Severo-Kavkazskiy region. Tehnicheskie nauki. [Proceedings of the universities. North Caucasus region. technical sciences] 2012, no. 2, pp. 42-45 (in Russian)

2. N. S. Orlova. Comparison of calculations by the two-field vibrofluidized-bed model with experimental data. Journal of Engineering Physics and Thermophysics vol. 85, no. 6, pp 1305-1310. doi 10.1007/s10891-012-0775-x

3. N. S. Orlova. Comparison of the Results of Experimental Investigations of a Vibrofluidized Bed with Calculations by a Granular Gas Hydrodynamic Model. Journal of Engineering Physics and Thermophysics vol. 87, no. 2, pp 443-449. doi 10.1007/s10891-014-1030-4

4. Konsol na upravlyayuschiy uzel klastera (2012), "BL2x220 Cluster Console" // URL: https://unihub.ru/resources/bl2x220cc (data obrascheniya: 10.06.2014). [Console to the control node of the cluster (2012), "BL2x220 Cluster Console" // URL: https://unihub.ru/resources/bl2x220cc (date of treatment: 10.06.2014).]

5. E.S. Kamenetskiy, N.S. Orlova, M.V. Volik, D.G. Minasyan. Issledovanie dinamiki kipyaschego granulirovannogo sloya s ispolzovaniem paketa OpenFoam. [The study of the dynamics of fluidized granular layer using the package OpenFoam.] Izvestiya vuzov. Severo-Kavkazskiy region. Estestvennyie nauki. [Proceedings of the universities. North Caucasus region. natural sciences] 2014, no. 5, pp. 37-42 (in Russian)

6. H. Rusche. Computational Fluid Dynamics of Dispersed Two-Phase Flows at High Phase Fractions. Thesis submitted for the degree of Doctor of Philosophy of the University of London and Diploma of Imperial College. 2002. 343 p.

7. B. van Wachem. Derivation, Implementation, and Validation of Computer Simulation Models for Gas-Solid Fluidized Beds – Dissertation at Delft University of Technology. 2000. 222 p.

8. D. Gidaspow. Multiphase flow and fluidization: Continuum and kinetic theory descriptions. Boston: Academic Press Inc., 1994. 211 p.

9. N.S. Orlova, M.V. Volik. Modelling of vibrofluidized bed dynamics using OpenFoam. Waves and vortices in complex media: 5-th International Scientific School of Young Scientists, November 25-28, 2014, Moscow. M.: MAKS Press, 2014. pp. 72-74.