A CFD investigation of the performance of stirred tanks

Youcef, Kamla; Driss, Zied; Foukrach, Mohamed; Rosa, Sérgio; Baki, Touhami

http://hdl.handle.net/10198/35209

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Abstract(s)

Rushton turbine was employed in this study to numerically analyze the fluid flow it generates within a stirred tank. The topology of the resulting flow was found to be strongly dependent on several parameters, including the geometric configurations of the system and the properties of the moving fluids. The governing equations, based on the k-epsilon model, were solved using the finite volume method. Velocity field profiles, streamlines and vortex sizes were ana-lyzed for several geometries, varying the number of blades from 6 to 12 and others. A comparison was also conducted to evaluate the effect of the number of stirring mobiles used to mix the fluid (single stage, two stages and three stages), as well as the influence of the spacing ratio between the different stir-rers. Finally, our numerical simulation procedure was validated through com-paring the results obtained with experimental work available in the literature, showing good agreement between the different approaches.

Keywords

Rushton turbine Turbulent flow field Power number Mixing Simulation

URI

http://hdl.handle.net/10198/35209

Citation

Youcef, Kalma; Driss, Zied; Foukrach, Mohammed; Rosa, Sergio; Baki, Touhami. (2025). A CFD investigation of the performance of stirred tanks. Journal of the serbian chemical society. ISSN 1820-7421. 90:11, p. 1369-1382