Vortex scenario and bubble generation in a cylindrical cavity with rotating top and bottom

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The creation of recirculation bubbles in a steady, viscous flow in a cylindrical cavity with co-rotating top and bottom is investigated numerically. By varying the Reynolds number and the aspect ratio of the cylinder various axial-symmetric flow regimes are studied. It is observed that the topology of re-circulating vortex is associated with a change in helical symmetry of the vortex lines. The computations show that symmetry changes take place at increasing Reynolds numbers and that flow reversal on the center axis is associated with a growth of the twist parameter of the vortex lines. For all studied flow cases, independent of aspect ratio and Reynolds number, it was observed that the twist parameter of the central vortex attains a threshold value of K=0.6 at the point where flow reversal takes place.
Original languageEnglish
JournalEuropean Journal of Mechanics B/Fluids
Volume24
Pages (from-to)137-148
ISSN0997-7546
Publication statusPublished - 2005

ID: 2398237