Dynamics of uniform vortex patch with a point vortex

The point vortex is the simplest model of a two-dimensional vortex with non-zero circulation. The limitations introduced by its lack of core structure have been remedied by using desingularizations such as vortex patches and vortex sheets. We investigate steady states of the Sadovskii vortex in strain, a canonical model for a vortex in a general flow. The Sadovskii vortex is a uniform patch of vorticity surrounded by a vortex sheet. We recover previously known limiting cases of the vortex patch and hollow vortex, and examine the bifurcations away from these families. The result is a solution manifold spanned by two parameters. The addition of the vortex sheet to the vortex patch solutions immediately leads to splits in the solution manifold at certain bifurcation points. The more circular elliptical family remains attached to the family with a single pinch-off, and this family extends all the way to the simpler solution branch for the pure vortex sheet solutions. More elongated families below this one also split at bifurcation points, but these families do not exist in the vortex sheet limit.

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Discussion on: Symmetry Reduction and Control of the Dynamics of a 2-D Rigid Circular Cylinder and a Point Vortex: Vortex Capture and Scattering

European Journal of Control ◽

10.3166/ejc.13.655-656 ◽

2007 ◽

Vol 13 (6) ◽

pp. 655-656

Author(s):

Sebsatian Ferraro ◽

David Martín de Diego

Keyword(s):

Circular Cylinder ◽

Point Vortex ◽

Symmetry Reduction ◽

Vortex Capture ◽

And Control

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Eulerian and Lagrangian observability of point vortex flows

Tellus A Dynamic Meteorology and Oceanography ◽

10.3402/tellusa.v60i5.15509 ◽

2008 ◽

Cited By ~ 1

Author(s):

Arthur J. Krener

Keyword(s):

Point Vortex ◽

Vortex Flows

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Chaos in body–vortex interactions

Proceedings of The Royal Society A Mathematical Physical and Engineering Sciences ◽

10.1098/rspa.2009.0619 ◽

2010 ◽

Vol 466 (2119) ◽

pp. 1871-1891 ◽

Cited By ~ 24

Author(s):

Johan Roenby ◽

Hassan Aref

Keyword(s):

Body Shape ◽

Mass Density ◽

Relative Equilibrium ◽

Large Body ◽

Point Vortex ◽

Cylindrical Body ◽

The Body ◽

Body Motion ◽

Single Vortex ◽

Vortex Interactions

The model of body–vortex interactions, where the fluid flow is planar, ideal and unbounded, and the vortex is a point vortex, is studied. The body may have a constant circulation around it. The governing equations for the general case of a freely moving body of arbitrary shape and mass density and an arbitrary number of point vortices are presented. The case of a body and a single vortex is then investigated numerically in detail. In this paper, the body is a homogeneous, elliptical cylinder. For large body–vortex separations, the system behaves much like a vortex pair regardless of body shape. The case of a circle is integrable. As the body is made slightly elliptic, a chaotic region grows from an unstable relative equilibrium of the circle-vortex case. The case of a cylindrical body of any shape moving in fluid otherwise at rest is also integrable. A second transition to chaos arises from the limit between rocking and tumbling motion of the body known in this case. In both instances, the chaos may be detected both in the body motion and in the vortex motion. The effect of increasing body mass at a fixed body shape is to damp the chaos.

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