## Bifurcation analysis in a vortex flow generated by an oscillatory magnetic obstacle

Publication: Research - peer-review › Journal article – Annual report year: 2010

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**Bifurcation analysis in a vortex flow generated by an oscillatory magnetic obstacle.** / Beltrán, A.; Ramos, E.; Cuevas, S.; Brøns, Morten.

Publication: Research - peer-review › Journal article – Annual report year: 2010

### Harvard

*Physical Review E (Statistical, Nonlinear, and Soft Matter Physics)*, vol 81, no. 3, pp. 036309. DOI: 10.1103/PhysRevE.81.036309

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*Physical Review E (Statistical, Nonlinear, and Soft Matter Physics)*,

*81*(3), 036309. DOI: 10.1103/PhysRevE.81.036309

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*Physical Review E (Statistical, Nonlinear, and Soft Matter Physics)*. 2010, 81(3). 036309. Available: 10.1103/PhysRevE.81.036309

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TY - JOUR

T1 - Bifurcation analysis in a vortex flow generated by an oscillatory magnetic obstacle

AU - Beltrán,A.

AU - Ramos,E.

AU - Cuevas,S.

AU - Brøns,Morten

N1 - Copyright 2010 American Physical Society

PY - 2010

Y1 - 2010

N2 - A numerical simulation and a theoretical model of the two-dimensional flow produced by the harmonic oscillation of a localized magnetic field (magnetic obstacle) in a quiescent viscous, electrically conducting fluid are presented. Nonuniform Lorentz forces produced by induced currents interacting with the oscillating magnetic field create periodic laminar flow patterns that can be characterized by three parameters: the oscillation Reynolds number, Re-omega, the Hartmann number, Ha, and the dimensionless amplitude of the magnetic obstacle oscillation, D. The analysis is restricted to oscillations of small amplitude and Ha=100. The resulting flow patterns are described and interpreted in terms of position and evolution of the critical points of the instantaneous streamlines. It is found that in most of the cycle, the flow is dominated by a pair of counter rotating vortices that switch their direction of rotation twice per cycle. The transformation of the flow field present in the first part of the cycle into the pattern displayed in the second half occurs via the generation of hyperbolic and elliptic critical points. The numerical solution of the flow indicates that for low frequencies (v.e. Re-omega = 1), two elliptic and two hyperbolic points are generated, while for high frequencies (v.e. Re-omega = 100), a more complex topology involving four elliptic and two hyperbolic points appear. The bifurcation map for critical points of the instantaneous streamline is obtained numerically and a theoretical model based on a local analysis that predicts most of the qualitative properties calculated numerically is proposed.

AB - A numerical simulation and a theoretical model of the two-dimensional flow produced by the harmonic oscillation of a localized magnetic field (magnetic obstacle) in a quiescent viscous, electrically conducting fluid are presented. Nonuniform Lorentz forces produced by induced currents interacting with the oscillating magnetic field create periodic laminar flow patterns that can be characterized by three parameters: the oscillation Reynolds number, Re-omega, the Hartmann number, Ha, and the dimensionless amplitude of the magnetic obstacle oscillation, D. The analysis is restricted to oscillations of small amplitude and Ha=100. The resulting flow patterns are described and interpreted in terms of position and evolution of the critical points of the instantaneous streamlines. It is found that in most of the cycle, the flow is dominated by a pair of counter rotating vortices that switch their direction of rotation twice per cycle. The transformation of the flow field present in the first part of the cycle into the pattern displayed in the second half occurs via the generation of hyperbolic and elliptic critical points. The numerical solution of the flow indicates that for low frequencies (v.e. Re-omega = 1), two elliptic and two hyperbolic points are generated, while for high frequencies (v.e. Re-omega = 100), a more complex topology involving four elliptic and two hyperbolic points appear. The bifurcation map for critical points of the instantaneous streamline is obtained numerically and a theoretical model based on a local analysis that predicts most of the qualitative properties calculated numerically is proposed.

U2 - 10.1103/PhysRevE.81.036309

DO - 10.1103/PhysRevE.81.036309

M3 - Journal article

VL - 81

SP - 036309

JO - Physical Review E

T2 - Physical Review E

JF - Physical Review E

SN - 2470-0045

IS - 3

ER -