A note on the stability of low-Prandtl-number Hadley circulations

John Hart

doi:10.1017/S0022112083001603

Abstract

This paper discusses the stability of the flow of a low-Prandtl-number liquid contained in a shallow slot with differentially heated vertical endwalls. The effect of thermally insulating boundaries at the top and bottom of the container on wavelength selection is emphasized. Stability calculations indicate that, for Prandtl number Pr in the range 0.015 < Pr < 0.27, the first perturbations to grow are overstable (oscillatory) longitudinal rolls with axes perpendicular to the endwalls, and with very large cross-stream wavelengths of about 9 to 15 layer depths. Previous studies using thermally conducting boundaries predict critical wavelengths of about three layer depths. The new results are in substantial agreement with an experiment using a differentially heated layer of mercury with aspect ratio (depth/length) 0.047 in both horizontal directions. The implications of the long-wavelength instability for the interpretation of thermal oscillations observed in other smaller-aspect-ratio configurations is discussed.

References

Birikh, R. V. 1966 On small perturbations of a plane parallel flow with a cubic velocity profile J. Appl. Maths Mech. 30, 432.Google Scholar

Cormack, D. E., Leal, L. G. & Imberger, J. 1974 Natural convection in a shallow cavity with differentially heated end walls. Part 1. Asymptotic theory J. Fluid Mech. 65, 209.Google Scholar

Gill, A. E. 1974 A theory of thermal oscillations in liquid metals J. Fluid Mech. 64, 577.Google Scholar

Hart, J. E. 1971 Stability of the flow in a differentially heated inclined box J. Fluid Mech. 47, 547.Google Scholar

Hart, J. E. 1972 Stability of thin non-rotating Hadley circulations J. Atmos. Sci. 29, 687.Google Scholar

Hart, J. E. 1983 Low Prandtl number convection driven between differentially heated end walls. Intl J. Heat Mass Transfer (to appear).

Hurle, D. T. J., Jackman, E. & Johnson, C. P. 1974 Convective temperature oscillations in molten gallium J. Fluid Mech. 64, 565.Google Scholar

Crossref Citations

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

Roux, Bernard Bontoux, Patrick and Henry, Daniel 1985. Macroscopic Modelling of Turbulent Flows. Vol. 230, Issue. , p. 202.

Brown, Robert A. 1986. Materials Sciences in Space. p. 55.

Bullister, E. T. Cartage, T. Deville, M. and Patera, A. T. 1986. Tenth International Conference on Numerical Methods in Fluid Dynamics. Vol. 264, Issue. , p. 141.

1987. Onset of multicellular convection in a shallow laterally heated cavity. Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences, Vol. 411, Issue. 1841, p. 327.

Drummond, Jerry E. and Korpela, Seppo A. 1987. Natural convection in a shallow cavity. Journal of Fluid Mechanics, Vol. 182, Issue. -1, p. 543.

Kuo, Hai Perng and Korpela, Seppo A. 1988. Stability and finite amplitude natural convection in a shallow cavity with insulated top and bottom and heated from a side. The Physics of Fluids, Vol. 31, Issue. 1, p. 33.

Roux, B. Ben Hadid, H. and Laure, P. 1988. Computational fluid dynamics and material processing (buoyancy and thermocapillary convections in melts during directional crystallization). Advances in Space Research, Vol. 8, Issue. 12, p. 225.

Hadid, Hamda Ben Roux, Bernard Randriamampianina, Anthony Crespo, Emilia and Bontoux, Patrick 1988. Physicochemical Hydrodynamics. Vol. 174, Issue. , p. 997.

Brown, Robert A. 1988. Theory of transport processes in single crystal growth from the melt. AIChE Journal, Vol. 34, Issue. 6, p. 881.

Cheng Hung, Ming and David Andereck, C 1988. Transitions in convection driven by a horizontal temperature gradient. Physics Letters A, Vol. 132, Issue. 5, p. 253.

Mohamad, A.A. and Viskanta, R. 1989. Stability of lid-driven shallow cavity heated from below. International Journal of Heat and Mass Transfer, Vol. 32, Issue. 11, p. 2155.

Roux, B. Hadid, H.Ben and Laure, P. 1989. Numerical simulation of oscillatory convection in semiconductor melts. Journal of Crystal Growth, Vol. 97, Issue. 1, p. 201.

Wang, Tzyy-Ming and Korpela, Seppo A. 1989. Convection rolls in a shallow cavity heated from a side. Physics of Fluids A: Fluid Dynamics, Vol. 1, Issue. 6, p. 947.

Imberger, Jörg and Patterson, John C. 1989. Advances in Applied Mechanics Volume 27. Vol. 27, Issue. , p. 303.

Laure, P. and Roux, B. 1989. Linear and non-linear analysis of the Hadley circulation. Journal of Crystal Growth, Vol. 97, Issue. 1, p. 226.

Laure, P. and Roux, B. 1990. Numerical Simulation of Oscillatory Convection on Low-Pr Fluids. p. 307.

Haldenwang, P. and Elkeslassy, S. 1990. Numerical Simulation of Oscillatory Convection on Low-Pr Fluids. p. 217.

ARNOLD, W. JACQMIN, D. GAUG, R. and CHAIT, A. 1990. Convection phenomena in low-gravity processing - The GTE GaAs space experiment.

Shadid, J. N. and Goldstein, R. J. 1990. Visualization of longitudinal convection roll instabilities in an inclined enclosure heated from below. Journal of Fluid Mechanics, Vol. 215, Issue. -1, p. 61.

Pulicani, J. P. Del Arco, E. Crespo Randriamampianina, A. Bontoux, P. and Peyret, R. 1990. Spectral simulations of oscillatory convection at low Prandtl number. International Journal for Numerical Methods in Fluids, Vol. 10, Issue. 5, p. 481.

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A note on the stability of low-Prandtl-number Hadley circulations

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

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A note on the stability of low-Prandtl-number Hadley circulations

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