Simulation of Solid Particles Mixing in a Pilot Leaching Reactor

Document Type : Original Articles

Authors

1 Sahand University of Technology

2 Sahand university of Technology

Abstract

The mode and rate of agitation of the particles is one of the effective variables for dissolving solid particles in the aqueous solution. In the present study, a computer software has been used for simulation of the particle agitation in the pilot mixer reactor. The stirrer speed, pulp density, particle size and solid particles density were selected variables. The effect of above factors on velocity of particles and their accumulation was investigated. The stirrer speed has significant effect on the particle velocity, but by increasing the pulp density, average speed of the particles is more limited. Increasing the size and density of particles can reduce the speed of moving parts. Particle accumulation has increased with increasing pulp density and particle size. The stirrer speed significantly decreases the amount of inactive areas in the reactor. The density of particles does not effect on particle accumulation.

Keywords

References

1. Günkel, A. A. and Weber, M., E., "Flow phenomena in stirred tanks. Part I. The impeller stream", AIChE Journal, Vol. 21, pp. 931-939, (1975).
2. Harvey, P. S. and Greaves, M., "Turbulent flow in an agitated vessel. Part I: A predictive model", Transactions of the Institution of Chemical Engineers, Vol. 60, pp. 195-200, (1982).
3. Placek, J. and Tavlarides, L. L., "Turbulent Flow in Stirred Tanks", AIChE Journal, Vol. 31, pp. 1113–1120, (1986).
4. Pericieous, K. A. and Patel, M. K., "The source-sink approach in the modeling of stirred reactors", Phys Chem Hydrodynamics, Vol. 9, pp. 279-297, (1987).
5. Middleton, J. C., Pierce, F. and Lynch, P. M., "Computations of flow fields and complex reaction yield in turbulent stirred reactors, and comparison with experimental data", Chemical Engineering Research & Design, Vol. 64.1, pp. 18-22, (1986).
6. Brucato A., Ciofalo M., Grisafi F. and Micale G., "Numerical prediction of flow fields in baffled stirred vessels: a comparison of alternative modelling approaches", Chemical Engineering Science, Vol. 53, pp. 3653-3684, (1998).
7. Brucato A., Ciofalo M., Grisafi F. and Micale G., "Complete numerical simulation of flow fields in baffled stirred vessels: the inner-outer approach", Institute Of Chemical Engineers Symposium Series, Vol. 136, pp. 152-155, (1994).
8. Luo, J. Y. and Gosman, A. D., "Prediction of Impeller-Induced Flow in Mixing Vessels Using Multiple Frames of Reference", Institute of Chemical Engineers Symposium Series, Vol. 136, pp. 544-549, (1994).
9. Kasat, G. R., Khopkar, A. R., Ranade, V. V. and Pandit, A. B.," CFD simulation of liquid-phase mixing in solid–liquid stirred reactor", Chemical Engineering Science; Vol. 63, pp.3877-85, (2008).
10. Tamburini, A, Cipollina, A. and Micale, G. "CFD Simulation of Solid Liquid Suspensions in Baffled Stirred Vessels Below Complete Suspension Speed", Chemical Engineering, Vol. 24, pp. 1435-1440, (2010).
11. Derksen, J. J. “Highly resolved simulations of solids suspension in a small mixing tank”, AIChE Journal, Vol. 58, pp.3266-3278, (2012).
12. Tamburini, A, Cipollina, A, Micale, G, Brucato, A. and Ciofalo, M., "CFD prediction of solid particle distribution in baffled stirred vessels under partial to complete suspension conditions", Aidic Conference Series Journal, Vol. 11, pp. 391-400, (2013).
13. Tamburini, A., Cipollina, A., Micale, G., Brucato, A. and Ciofalo, M., "CFD simulations of dense solid–liquid suspensions in baffled stirred tanks: Prediction of suspension curves", Chemical Engineering Journal; Vol. 178, pp. 324-341, (2011).
14. Wadnerkar, D., Utikar, R. P., Tade, M. O. and Pareek, V. K., "CFD simulation of solid–liquid stirred tanks", Advanced Powder Technology; Vol. 23, pp. 445-453, (2012).
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Journal Of Metallurgical and Materials Engineering
Volume 31, Issue 1 - Serial Number 21
Autumn and Winter
March 2020
Pages 101-110

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