Bifurcation of an elliptic vortex ring

Oshima, Yuko; Izutsu, Naoki; Oshima, Koichi; Hussain, Fazle

doi:10.1016/0169-5983(88)90056-1

Cited by 21 publications

(10 citation statements)

References 6 publications

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“…Oshima (1988)[5l predicted that the motion of a single elliptic vortex ring will bifurcate at AR .= 3.5, we find that the ring with AR --4 will reach a complicate middle state between periodic oscillation and complete splitting. Oshima (1988)[5l predicted that the motion of a single elliptic vortex ring will bifurcate at AR .= 3.5, we find that the ring with AR --4 will reach a complicate middle state between periodic oscillation and complete splitting.…”

Section: A/b--4mentioning

confidence: 61%

Evolution of single elliptic vortex rings

Zhao

Xungang

1997

Acta Mech Sinica

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The evolution of single elliptic vortex rings for initial aspect ratio (AR) =2,4,6 has been studied. The incompressible Navier-Stokes equations are solved by a dealiased pseudo-spectral method with 643 grid points in a periodic cube. We find that there are three kinds of vortex motion as AR increases and bifurcation occurs at certain AR. The processes of advection, interaction and decay of vortex ring axe discussed. Numerical results coincide with experiments and other authors' numerical simulation.

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Section: A/b--4mentioning

confidence: 61%

Evolution of single elliptic vortex rings

Zhao

Xungang

1997

Acta Mech Sinica

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“…In particular, the behaviour of elliptical vortex rings is well documented in both computational (Arms & Hama 1965;Viets & Sforza 1972;Dhanak & de Bernardinis 1981;Fernandez, Zabusky & Gryanik 1995;Ryu & Lee 1997;Kimura 2006) and experimental studies (Oshima et al 1988;Hussain & Husain 1989;Hussain & Hussain 1991;Adhikari 2009). The bulk of these studies focused on the time-dependent deformation of the elliptical vortex ring due to the curvature dependence of the vortex propagation velocity (Arms & Hama 1965;Dhanak & de Bernardinis 1981;Viets & Sforza 1972).…”

Section: Introductionmentioning

confidence: 99%

Pinch-off of non-axisymmetric vortex rings

O’Farrell

Dabiri

2014

J. Fluid Mech.

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The formation and pinch-off of non-axisymmetric vortex rings is considered experimentally. Vortex rings are generated using a non-circular piston-cylinder arrangement, and the resulting velocity fields are measured using digital particle image velocimetry. Three different nozzle geometries are considered: an elliptical nozzle with an aspect ratio of two, an elliptical nozzle with an aspect ratio of four and an oval nozzle constructed from tangent circular arcs. The formation of vortices from the three nozzles is analysed by means of the vorticity and circulation, as well as by investigation of the Lagrangian coherent structures in the flow. The results indicate that, in all three nozzles, the maximum circulation the vortex can attain is determined by the equivalent diameter of the nozzle: the diameter of a circular nozzle of identical cross-sectional area. In addition, the time at which the vortex rings pinch off is found to be constant along the nozzle contours, and independent of relative variations in the local curvature. A formation number for this class of vortex rings is defined based on the equivalent diameter of the nozzle, and the formation number for vortex rings of the three geometries considered is found to lie in the range of 3-4. The implications of the relative shape and local curvature independence of the formation number on the study and modelling of naturally occurring vortex rings such as those that appear in biological flows is discussed.

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“…Arms and Hama (1965) studied the axis-switching periods of an elliptic vortex ring by the Localised-Induction Approximation method and proposed an expression to estimate the period as a function of the area and eccentricity of the ring. Oshima et al (1988) measured the time-dependent vorticity fields of elliptic vortex rings of aspect ratios 2, 3 and 4 using Hot-Wire Anemometry and studied the mechanism of vortex bifurcation. Zhao and Shi (1998) studied the evolution of single elliptic vortex rings of aspect ratios 2, 4 and 6 by solving the incompressible Navier-Stokes equations using a pseudo-spectral method and found that vortex rings with large aspect ratios will partially split into two new sub-rings.…”

Section: Introductionmentioning

confidence: 99%

Numerical investigation of the evolution of elliptic vortex ring

Wang

Chen

2012

PCFD

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In this paper, a three-dimensional vortex filament method is implemented to study the axis-switching period of an elliptic vortex ring. The change of the semi-axis length and the projection of a single elliptic ring are first compared with the literature. Then, the evolution of elliptic vortex rings with different circulations, aspect ratios and core radius-to-ring radius ratios are numerically reproduced, and the evolution of the velocity and aspect ratios are also studied to determine their influence on the motion of vortex rings. Furthermore, the axis-switching periods of elliptic rings for different cases are investigated, and an expression to fit all the cases is obtained.

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Bifurcation of an elliptic vortex ring

Cited by 21 publications

References 6 publications

Evolution of single elliptic vortex rings

Evolution of single elliptic vortex rings

Pinch-off of non-axisymmetric vortex rings

Numerical investigation of the evolution of elliptic vortex ring

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