Three-dimensional instability of axisymmetric flow in a rotating lid–cylinder enclosure

A. Yu. GELFGAT; P. Z. BAR-YOSEPH; A. SOLAN

doi:10.1017/S0022112001004566

Abstract

The axisymmetry-breaking three-dimensional instability of the axisymmetric flow between a rotating lid and a stationary cylinder is analysed. The flow is governed by two parameters – the Reynolds number Re and the aspect ratio γ (=height/radius). Published experimental results indicate that in different ranges of γ axisymmetric or non-axisymmetric instabilities can be observed. Previous analyses considered only axisymmetric instability. The present analysis is devoted to the linear stability of the basic axisymmetric flow with respect to the non-axisymmetric perturbations. After the linearization the stability problem separates into a family of quasi-axisymmetric subproblems for discrete values of the azimuthal wavenumber k. The computations are done using the global Galerkin method. The stability analysis is carried out at various densely distributed values of γ in the range 1 < γ < 3.5. It is shown that the axisymmetric perturbations are dominant in the range 1.63 < γ < 2.76. Outside this range, for γ < 1.63 and for γ > 2.76, the instability is three-dimensional and sets in with k = 2 and k = 3 or 4, respectively. The azimuthal periodicity, patterns, characteristic frequencies and phase velocities of the dominant perturbations are discussed.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Barbosa, Emerson and Daube, Olivier 2002. Solutions multiples pour les écoulements tridimensionnels en rotation . Comptes Rendus. Mécanique, Vol. 330, Issue. 11, p. 791.

Sanchez, J. Marques, F. and Lopez, J.M. 2002. A Continuation and Bifurcation Technique for Navier–Stokes Flows. Journal of Computational Physics, Vol. 180, Issue. 1, p. 78.

Ventikos, Yiannis 2002. The effect of imperfections on the emergence of three-dimensionality in stationary vortex breakdown bubbles. Physics of Fluids, Vol. 14, Issue. 3, p. L13.

Blackburn, H. M. 2002. Three-dimensional instability and state selection in an oscillatory axisymmetric swirling flow. Physics of Fluids, Vol. 14, Issue. 11, p. 3983.

Hirsa, A. H. Lopez, J. M. and Miraghaie, R. 2002. Symmetry breaking to a rotating wave in a lid-driven cylinder with a free surface: Experimental observation. Physics of Fluids, Vol. 14, Issue. 6, p. L29.

Lopez, J.M. Marques, F. and Shen, Jie 2002. An Efficient Spectral-Projection Method for the Navier–Stokes Equations in Cylindrical Geometries. Journal of Computational Physics, Vol. 176, Issue. 2, p. 384.

Husain, Hyder S. Shtern, Vladimir and Hussain, Fazle 2003. Control of vortex breakdown by addition of near-axis swirl. Physics of Fluids, Vol. 15, Issue. 2, p. 271.

Marques, F. Gelfgat, A. Yu. and Lopez, J. M. 2003. Tangent double Hopf bifurcation in a differentially rotating cylinder flow. Physical Review E, Vol. 68, Issue. 1,

Hourigan, Kerry Mcbean, Ivan Thompson, Mark and Liu, Feng 2003. Coupling of Fluids, Structures and Waves in Aeronautics. Vol. 85, Issue. , p. 87.

Gelfgat, Alexander Yu. and Bar‐Yoseph, Pinhas Z. 2004. Multiple solutions and stability of confined convective and swirling flows – a continuing challenge. International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 14, Issue. 2, p. 213.

Del Taglia, Christian Blum, Lars Gass, Ju¨rg Ventikos, Yiannis and Poulikakos, Dimos 2004. Numerical and Experimental Investigation of an Annular Jet Flow With Large Blockage. Journal of Fluids Engineering, Vol. 126, Issue. 3, p. 375.

Iwatsu, Reima 2005. Numerical Study of Flows in a Cylindrical Container with Rotating Bottom and Top Flat Free Surface. Journal of the Physical Society of Japan, Vol. 74, Issue. 1, p. 333.

Barbosa, E. and Daube, O. 2005. A finite difference method for 3D incompressible flows in cylindrical coordinates. Computers & Fluids, Vol. 34, Issue. 8, p. 950.

Gelfgat, A.Yu. Rubinov, A. Bar-Yoseph, P.Z. and Solan, A. 2005. Numerical study of three-dimensional instabilities in a hydrodynamic model of Czochralski growth. Journal of Crystal Growth, Vol. 275, Issue. 1-2, p. e7.

Iwatsu, R. 2005. New Developments in Computational Fluid Dynamics. Vol. 90, Issue. , p. 141.

Okulov, Valery L. Sørensen, Jens N. and Voigt, Lars K. 2005. Vortex scenario and bubble generation in a cylindrical cavity with rotating top and bottom. European Journal of Mechanics - B/Fluids, Vol. 24, Issue. 2, p. 137.

Molki, Majid and Olcay, Ismail Hakan 2005. Vortex Breakdown in a Cylindrical Enclosure With a Rotating Lid. p. 539.

Sørensen, Jens Nørkær Naumov, Igor and Mikkelsen, Robert 2006. Experimental investigation of three-dimensional flow instabilities in a rotating lid-driven cavity. Experiments in Fluids, Vol. 41, Issue. 3, p. 425.

Shen, Wen Zhong Sørensen, Jens Nørkær and Michelsen, Jess A. 2006. Numerical study of swirling flow in a cylinder with rotating top and bottom. Physics of Fluids, Vol. 18, Issue. 6,

Gelfgat, Alexander Yu. 2006. Implementation of arbitrary inner product in the global Galerkin method for incompressible Navier–Stokes equations. Journal of Computational Physics, Vol. 211, Issue. 2, p. 513.

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Three-dimensional instability of axisymmetric flow in a rotating lid–cylinder enclosure

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Three-dimensional instability of axisymmetric flow in a rotating lid–cylinder enclosure

Abstract

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