论文信息 - Planform selection in rotating convection

Planform selection in rotating convection

Three‐dimensional convection in a rotating fluid layer is studied near the onset of the steady‐state instability using symmetric bifurcation theory. The problem is formulated as a bifurcation problem on a doubly periodic square lattice. Symmetry considerations determine the form of the ordinary differential equations governing the evolution of the marginally stable modes. From the symmetry analysis the relative stability of rolls and squares can be determined. Stable solutions exist only if both patterns bifurcate supercritically, and the one with the largest Nusselt number is the stable one. The theory is illustrated by explicit calculations for idealized boundary conditions, and the bifurcation diagrams given for all values of the Taylor and Prandtl numbers.

Edgar Knobloch | Mary Silber | H. F. Goldstein

[1] G. Veronis. Cellular convection with finite amplitude in a rotating fluid , 1959, Journal of Fluid Mechanics.

[2] W. Malkus,et al. The heat transport and spectrum of thermal turbulence , 1954, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[3] Daniel N. Riahi,et al. Nonlinear convection in a rotating layer with finite conducting boundaries , 1990 .

[4] G. Kueppers,et al. Transition from laminar convection to thermal turbulence in a rotating fluid layer , 1969, Journal of Fluid Mechanics.

[5] M. Golubitsky,et al. Hopf Bifurcation in the presence of symmetry , 1984 .

[6] Knobloch,et al. Pattern selection in steady binary-fluid convection. , 1988, Physical review. A, General physics.

[7] M. Golubitsky,et al. A classification of degenerate Hopf bifurcations with O(2) symmetry , 1987 .

[8] Martin Golubitsky,et al. Symmetries and pattern selection in Rayleigh-Bénard convection , 1984 .