Abstract

An experimental study of isolated mixing regions (IMRs) in a cylindrical vessel stirred by three different impellers (a six-blade Rusthon turbine, a four-blade Lightnin A315 impeller and an axial CPE RTF4 impeller) has shown the existence of IMRs in all three systems at low Reynolds numbers. Calculations of the Re ranges in which IMRs exist, torque measurements and flow visualizations enabled the analysis of the effects of impeller type and the flow structures when IMRs were present. Particular attention was given to the case of the Rushton turbine, where digital image analysis revealed that the mechanism of IMR disappearance can be described as a period-doubling locus in the physical space, in which IMRs completely disappear at a critical Re, resulting in global mixing.

Recommended Citation

Noui-Mehidi, Mohamed Nabil; Ohmura, Naoto; Wu, Jie; Nguyen, Bon Van; Nishioka, Nami; and Takigawa, Teiji (2008) "Characterisation of Isolated Mixing Regions in a Stirred Vessel," International Journal of Chemical Reactor Engineering: Vol. 6: A25.
Available at: http://www.bepress.com/ijcre/vol6/A25