1990
DOI: 10.1016/0021-9991(90)90204-e
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Hopf bifurcation in the driven cavity

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Cited by 73 publications
(36 citation statements)
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“…Indeed, it is observed that the presence of singular boundary conditions degrades convergence from spectral to algebraic. A time-marching procedure was employed to generate the steady state; in the light of the work of Goodrich et al (1990) and Shen (1991), such a technique is likely to be successful for Reynolds numbers below about 10 4 , well beyond our envelope of investigation. Algorithmic details for the computation of the twodimensional steady state may be found elsewhere (Theofilis 2003).…”
Section: Pressure-gradient-driven Flow Through a Rectangular Ductmentioning
confidence: 99%
See 1 more Smart Citation
“…Indeed, it is observed that the presence of singular boundary conditions degrades convergence from spectral to algebraic. A time-marching procedure was employed to generate the steady state; in the light of the work of Goodrich et al (1990) and Shen (1991), such a technique is likely to be successful for Reynolds numbers below about 10 4 , well beyond our envelope of investigation. Algorithmic details for the computation of the twodimensional steady state may be found elsewhere (Theofilis 2003).…”
Section: Pressure-gradient-driven Flow Through a Rectangular Ductmentioning
confidence: 99%
“…Unsteady approaches to the problem yield a yet further twist to the overall picture. The work of Goodrich, Gustafson & Halasi (1990) and Shen (1991) indicates that the flow converges to a (two-dimensional) steady state for Reynolds numbers up to about 10 4 . The former work suggests that for Reynolds numbers in the range 10 000 < Re < 10 500 the flow becomes temporally periodic with a Hopf bifurcation, whilst Shen (1991) shows the flow to become quasi-periodic in the range 15 000 < Re < 15 500 in the regularized case, with a non-uniform sliding of the lid (in order to avoid difficulties with flow singularities at the top corners of the cavity).…”
Section: Introductionmentioning
confidence: 99%
“…It is suspected that the slow convergence at this Reynolds number is due to the strong transient nature of the flow where several significant secondary flows appear and interact with the main circulating vortex. Goodrich et al [67] has found the flow to be unsteady at Re ~ 5000.…”
Section: Present Results Hwang and Fanmentioning
confidence: 99%
“…The driven cavity does not show stability for a Reynolds number larger than 7500, instead there is bounded oscillations of the energy even for very small time-steps. We have not analysed the nature of this oscillation, although the reasons may be associated with the dynamical features of the physical problem as reported in the literature for the driven cavity in References [27][28][29], where other numerical schemes were used. The reference value given by Botella and Peyret [30] is !…”
Section: Stabilitymentioning
confidence: 99%