Nonlinear three-dimensional flow in the lid-driven square cavity

S. ALBENSOEDER; H. C. KUHLMANN

doi:10.1017/S0022112006002758

Abstract

The three-dimensional flow in a lid-driven cuboid is investigated numerically. The geometry is an extension to three dimensions of the lid-driven square cavity by translating the two-dimensional lid-driven cavity parallel to the third orthogonal direction. The incompressible Navier–Stokes equations are discretized by a pseudospectral Chebyshev-collocation method. The singularities caused by the discontinuous velocity boundary conditions are reduced by including asymptotic analytical solutions in the solution ansatz. The flow is computed for Reynolds numbers above the critical onset of Taylor–Görtler vortices. Nonlinear Taylor–Görtler cells are calculated for periodic and for realistic no-slip endwall conditions. For periodic boundary conditions the bifurcation is either sub- or supercritical, depending on the wavenumber. The limiting tricritical case arises near the critical wavenumber of the linear-stability problem. On the other hand, no-slip endwall conditions have a significant effect on the supercritical three-dimensional flow. In agreement with recent experimental results we find that Taylor–Görtler vortices are suppressed near no-slip endwalls.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

BRÈS, GUILLAUME A. and COLONIUS, TIM 2008. Three-dimensional instabilities in compressible flow over open cavities. Journal of Fluid Mechanics, Vol. 599, Issue. , p. 309.

Siegmann-Hegerfeld, Tanja Albensoeder, Stefan and Kuhlmann, Hendrik C. 2008. Two- and three-dimensional flows in nearly rectangular cavities driven by collinear motion of two facing walls. Experiments in Fluids, Vol. 45, Issue. 5, p. 781.

Chicheportiche, Jérèmie Merle, Xavier Gloerfelt, Xavier and Robinet, Jean-Christophe 2008. Direct numerical simulation and global stability analysis of three-dimensional instabilities in a lid-driven cavity . Comptes Rendus. Mécanique, Vol. 336, Issue. 7, p. 586.

Giannetti, Flavio Luchini, Paolo and Marino, Luca 2010. Seventh IUTAM Symposium on Laminar-Turbulent Transition. Vol. 18, Issue. , p. 165.

Feldman, Yuri and Gelfgat, Alexander Yu. 2010. Oscillatory instability of a three-dimensional lid-driven flow in a cube. Physics of Fluids, Vol. 22, Issue. 9,

GONZÁLEZ, L. M. AHMED, M. KÜHNEN, J. KUHLMANN, H. C. and THEOFILIS, V. 2011. Three-dimensional flow instability in a lid-driven isosceles triangular cavity. Journal of Fluid Mechanics, Vol. 675, Issue. , p. 369.

Uhkötter, S. Becker, A. Czajka, H. aus der Wiesche, S. Brasseler, S. and Ehrhard, P. 2012. Grundlagenuntersuchung zu den Strömungsverhältnissen in hochtourigen Turbinengleitlagern: Strömung in einem Konfusor mit einseitig bewegter Berandung. Forschung im Ingenieurwesen, Vol. 76, Issue. 1-2, p. 1.

Tutty, Owen Savelsberg, Ralph and Castro, Ian P. 2012. Three-dimensional flow in circular cavities of large spanwise aspect ratio. Journal of Fluid Mechanics, Vol. 707, Issue. , p. 551.

Gomez Carrasco, Francisco Paredes, Pedro Gomez, Raquel and Theofilis, Vassilios 2012. Global Stability of Cubic and Large Aspect Ratio Three-Dimensional Lid-Driven Cavities.

Basley, J. Pastur, L. R. Delprat, N. and Lusseyran, F. 2013. Space-time aspects of a three-dimensional multi-modulated open cavity flow. Physics of Fluids, Vol. 25, Issue. 6,

Kuhlmann, Hendrik C. and Albensoeder, Stefan 2014. Stability of the steady three-dimensional lid-driven flow in a cube and the supercritical flow dynamics. Physics of Fluids, Vol. 26, Issue. 2,

Gómez, F. Gómez, R. and Theofilis, V. 2014. On three-dimensional global linear instability analysis of flows with standard aerodynamics codes. Aerospace Science and Technology, Vol. 32, Issue. 1, p. 223.

Basley, J. Pastur, L. R. Lusseyran, F. Soria, J. and Delprat, N. 2014. On the modulating effect of three-dimensional instabilities in open cavity flows. Journal of Fluid Mechanics, Vol. 759, Issue. , p. 546.

de Vicente, J. Basley, J. Meseguer-Garrido, F. Soria, J. and Theofilis, V. 2014. Three-dimensional instabilities over a rectangular open cavity: from linear stability analysis to experimentation. Journal of Fluid Mechanics, Vol. 748, Issue. , p. 189.

Citro, Vincenzo Giannetti, Flavio Brandt, Luca and Luchini, Paolo 2015. Linear three-dimensional global and asymptotic stability analysis of incompressible open cavity flow. Journal of Fluid Mechanics, Vol. 768, Issue. , p. 113.

Bhaumik, Swagata and Sengupta, Tapan K. 2015. A new velocity–vorticity formulation for direct numerical simulation of 3D transitional and turbulent flows. Journal of Computational Physics, Vol. 284, Issue. , p. 230.

Douay, C. L. Pastur, L. R. and Lusseyran, F. 2016. Centrifugal instabilities in an experimental open cavity flow. Journal of Fluid Mechanics, Vol. 788, Issue. , p. 670.

Gómez, F. Blackburn, H. M. Rudman, M. Sharma, A. S. and McKeon, B. J. 2016. A reduced-order model of three-dimensional unsteady flow in a cavity based on the resolvent operator. Journal of Fluid Mechanics, Vol. 798, Issue. ,

Romanò, Francesco Albensoeder, Stefan and Kuhlmann, Hendrik C. 2017. Topology of three-dimensional steady cellular flow in a two-sided anti-parallel lid-driven cavity. Journal of Fluid Mechanics, Vol. 826, Issue. , p. 302.

Vinha, N. Meseguer-Garrido, F. de Vicente, J. and Valero, E. 2018. Numerical investigation of the saturation process in an incompressible cavity flow. Journal of Fluid Mechanics, Vol. 837, Issue. , p. 182.

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Nonlinear three-dimensional flow in the lid-driven square cavity

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