Skip to main content

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
Cancel
×
×
Home
  • Home
Article
  • Cited by 4
  • Cited by
    Crossref Citations
    Crossref logo
    This article has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Lopez, Juan M. and Marques, Francisco 2018. Rapidly rotating precessing cylinder flows: forced triadic resonances. Journal of Fluid Mechanics, Vol. 839, Issue. , p. 239.
    Gutierrez-Castillo, Paloma and Lopez, Juan M. 2017. Nonlinear mode interactions in a counter-rotating split-cylinder flow. Journal of Fluid Mechanics, Vol. 816, Issue. , p. 719.
    Gutierrez-Castillo, Paloma and Lopez, Juan M. 2017. Differentially rotating split-cylinder flow: Responses to weak harmonic forcing in the rapid rotation regime. Physical Review Fluids, Vol. 2, Issue. 8,
    Lopez, Juan M and Marques, Francisco 2016. Inertial waves in rapidly rotating flows: a dynamical systems perspective. Physica Scripta, Vol. 91, Issue. 12, p. 124001.
    ×
  • Get access
    Add to cart USD35.00
    Check if you have access via personal or institutional login
    Log in Register Recommend to librarian

Three-dimensional instabilities and inertial waves in a rapidly rotating split-cylinder flow

  • Juan M. Lopez (a1) and Paloma Gutierrez-Castillo (a1)
Abstract

The nonlinear dynamics of the flow in a differentially rotating split cylinder is investigated numerically. The differential rotation, with the top half of the cylinder rotating faster than the bottom half, establishes a basic state consisting of a bulk flow that is essentially in solid-body rotation at the mean rotation rate of the cylinder and boundary layers where the bulk flow adjusts to the differential rotation of the cylinder halves, which drives a strong meridional flow. There are Ekman-like layers on the top and bottom end walls, and a Stewartson-like side wall layer with a strong downward axial flow component. The complicated bottom corner region, where the downward flow in the side wall layer decelerates and negotiates the corner, is the epicentre of a variety of instabilities associated with the local shear and curvature of the flow, both of which are very non-uniform. Families of both high and low azimuthal wavenumber rotating waves bifurcate from the basic state in Eckhaus bands, but the most prominent states found near onset are quasiperiodic states corresponding to mixed modes of the high and low azimuthal wavenumber rotating waves. The frequencies associated with most of these unsteady three-dimensional states are such that spiral inertial wave beams are emitted from the bottom corner region into the bulk, along cones at angles that are well predicted by the inertial wave dispersion relation, driving the bulk flow away from solid-body rotation.

Copyright
© 2016 Cambridge University Press 
Corresponding author
Email address for correspondence: juan.m.lopez@asu.edu
References
Hide All
Boisson, J., Lamriben, C., Maas, L. R. M., Cortet, P. P. & Moisy, F. 2012 Inertial waves and modes excited by the libration of a rotating cube. Phys. Fluids 24, 076602.
Cortet, P., Lamriben, C. & Moisy, F 2010 Viscous spreading of an inertial wave beam in a rotating fluid. Phys. Fluids 22, 086603.
Crespo del Arco, E., Serre, E., Bontoux, P. & Launder, B. E. 2005 Stability, transition and turbulence in rotating cavities. In Instability in Flows (ed. Rahman, M.), pp. 141195. WIT Press.
Davidson, P. A. 2013 Turbulence in Rotating, Stratified and Electrically Conducting Fluids. Cambridge University Press.
Dijkstra, D. & van Heijst, G. J. F. 1983 The flow between two finite rotating disks enclosed by a cylinder. J. Fluid Mech. 128, 123154.
Greenspan, H. P. 1968 The Theory of Rotating Fluids. Cambridge University Press.
Gutierrez-Castillo, P. & Lopez, J. M. 2015 Instabilities of the sidewall boundary layer in a rapidly rotating split cylinder. Eur. J. Mech. (B/Fluids) 52, 7684.
Hart, J. E. & Kittelman, S. 1996 Instabilities of the sidewall boundary layer in a differentially driven rotating cylinder. Phys. Fluids 8, 692696.
van Heijst, G. J. F. 1983 The shear-layer structure in a rotating fluid near a differentially rotating sidewall. J. Fluid Mech. 130, 112.
Hocking, L. M. 1962 An almost-inviscid geostrophic flow. J. Fluid Mech. 12, 129134.
Kerswell, R. R. 1995 On the internal shear layers spawned by the critical regions in oscillatory Ekman boundary layers. J. Fluid Mech. 298, 311325.
Lappa, M. 2012 Rotating Thermal Flows in Natural and Industrial Processes. Wiley.
Le Bars, M., Cebron, D. & Le Gal, P. 2015 Flows driven by libration, precession, and tides. Annu. Rev. Fluid Mech. 47, 163193.
Lopez, J. M. 1990 Axisymmetric vortex breakdown. Part 1. Confined swirling flow. J. Fluid Mech. 221, 533552.
Lopez, J. M. 1998 Characteristics of endwall and sidewall boundary layers in a rotating cylinder with a differentially rotating endwall. J. Fluid Mech. 359, 4979.
Lopez, J. M. 2006 Rotating and modulated rotating waves in transitions of an enclosed swirling flow. J. Fluid Mech. 553, 323346.
Lopez, J. M., Hart, J. E., Marques, F., Kittelman, S. & Shen, J. 2002 Instability and mode interactions in a differentially-driven rotating cylinder. J. Fluid Mech. 462, 383409.
Lopez, J. M. & Marques, F. 2003 Small aspect ratio Taylor–Couette flow: onset of a very-low-frequency three-torus state. Phys. Rev. E 68, 036302.
Lopez, J. M. & Marques, F. 2010 Sidewall boundary layer instabilities in a rapidly rotating cylinder driven by a differentially co-rotating lid. Phys. Fluids 22, 114109.
Lopez, J. M. & Marques, F. 2011 Instabilities and inertial waves generated in a librating cylinder. J. Fluid Mech. 687, 171193.
Lopez, J. M. & Marques, F. 2014a Rapidly rotating cylinder flow with an oscillating sidewall. Phys. Rev. E 89, 013013.
Lopez, J. M. & Marques, F. 2014b Three-dimensional instabilities in a discretely heated annular flow: onset of spatio-temporal complexity via defect dynamics. Phys. Fluids 26, 064102.
Lopez, J. M., Marques, F., Mercader, I. & Batiste, O. 2007 Onset of convection in a moderate aspect-ratio rotating cylinder: Eckhaus–Benjamin–Feir instability. J. Fluid Mech. 590, 187208.
Machicoane, N., Cortet, P.-P., Voisin, B. & Moisy, F. 2015 Influence of the multipole order of the source on the decay of an inertial wave beam in a rotating fluid. Phys. Fluids 27, 066602.
Marques, F., Gelfgat, A. Yu & Lopez, J. M. 2003 A tangent double Hopf bifurcation in a differentially rotating cylinder flow. Phys. Rev. E 68, 016310.
Marques, F. & Lopez, J. M. 2008 Influence of wall modes on the onset of bulk convection in a rotating cylinder. Phys. Fluids 20, 024109.
Marques, F., Lopez, J. M. & Shen, J. 2002 Mode interactions in an enclosed swirling flow: a double Hopf bifurcation between azimuthal wavenumbers 0 and 2. J. Fluid Mech. 455, 263281.
Mercader, I., Batiste, O. & Alonso, A. 2010 An efficient spectral code for incompressible flows in cylindrical geometries. Comput. Fluids 39, 215224.
Munroe, J. R. & Sutherland, B. R. 2014 Internal wave energy radiated from a turbulent mixed layer. Phys. Fluids 26, 096604.
Nore, C., Tartar, M., Daube, O. & Tuckerman, L. S. 2004 Survey of instability thresholds of flow between exactly counter-rotating disks. J. Fluid Mech. 511, 4565.
Nore, C., Tuckerman, L. S., Daube, O. & Xin, S. 2003 The 1 : 2 mode interaction in exactly counter-rotating von Karman swirling flow. J. Fluid Mech. 477, 5188.
Saric, W. S. 1994 Görtler vortices. Annu. Rev. Fluid Mech. 26, 379409.
Sauret, A., Cébron, D. & Le Bars, M. 2013 Spontaneous generation of inertial waves from boundary turbulence in a librating sphere. J. Fluid Mech. 728, R5.
Sauret, A., Cébron, D., Le Bars, M. & Le Dizés, S. 2012 Fluid flows in a librating cylinder. Phys. Fluids 24, 026603.
Schlichting, H. & Gersten, K. 2003 Boundary-Layer Theory, 8th edn. Springer.
Smith, S. H. 1991 The development of geostrophic flow within a split cylinder. J. Engng. Maths 25, 137150.
Stewartson, K. 1957 On almost rigid rotations. J. Fluid Mech. 3, 1726.
Sutherland, B. R. & Linden, P. F. 1998 Internal wave excitation from stratified flow over a thin barrier. J. Fluid Mech. 377, 223252.
Taylor, J. R. & Sarkar, S. 2007 Internal gravity waves generated by a turbulent bottom Ekman layer. J. Fluid Mech. 590, 331354.
Tuckerman, L. S. & Barkley, D. 1990 Bifurcation analysis of the Eckhaus instability. Physica D 46, 5786.
Veronis, G. 1970 The analogy between rotating and stratified fluids. Annu. Rev. Fluid Mech. 2, 3766.
Vo, T., Montabone, L., Read, P. & Sheard, G. 2015a Non-axisymmetric flows in a differential-disk rotating system. J. Fluid Mech. 775, 349386.
Vo, T., Montabone, L. & Sheard, G. 2014 Linear stability analysis of a shear layer induced by differential coaxial rotation within a cylindrical enclosure. J. Fluid Mech. 738, 299334.
Vo, T., Montabone, L. & Sheard, G. 2015b Effect of enclosuse height on the structure and stability of shear layers induced by differential rotation. J. Fluid Mech. 765, 4581.
Wood, W. W. 1981 Inertial modes with large azimuthal wavenumbers in an axisymmetric container. J. Fluid Mech. 105, 427449.
Recommend this journal

Email your librarian or administrator to recommend adding this journal to your organisation's collection.

Journal of Fluid Mechanics
  • ISSN: 0022-1120
  • EISSN: 1469-7645
  • URL: /core/journals/journal-of-fluid-mechanics
Please enter your name
Please enter a valid email address
Who would you like to send this to? *

CAPTCHA *

Skip to the audio challenge
×
MathJax

Keywords:

Metrics

Full text views

Total number of HTML views: 9
Total number of PDF views: 71 *
Loading metrics...

Abstract views

Total abstract views: 258 *
Loading metrics...

* Views captured on Cambridge Core between September 2016 - 13th June 2018. This data will be updated every 24 hours.

Cancel
Confirm
×