Bifurcation-analysis of solutal convection during directional solidification
Bifurcation-analysis of solutal convection during directional solidification
Techniques of bifurcation theory are used to analyze the possible forms of steady, two-dimensional, buoyancy-driven flow present during the vertical directional solidification of a dilute binary mixture. Morphological instabilities of the crystal-melt interface are ignored and the interface is assumed to be planar. The focus of the study concerns the effect of lateral confinement on the flow patterns observable in this simple model system. The use of a time-dependent numerical scheme by McFadden and Coriell [Proceedings of the First National Fluid Dynamics Congress, Cincinnati (AIAA, Washington, DC, 1988), p. 1572] to investigate this same problem resulted in gaps in the bifurcation structure, because unstable steady states exist that cannot be computed by their method. The present work extends and completes the description of the possible steady states. In particular, the complex modal exchanges that occur as the separation between the lateral walls varies are elucidated, and stable flow regimes and the sensitivity of the results to the closure condition at the upper boundary are determined.
Dilute binary alloy, morphological instability, thermosolutal convection, hydrodynamic stability, benard convection, melt, interface, growth
535-550
Impey, M.D.
a95f93d8-93b9-4adb-9e55-624e39f6f2bd
Riley, D.S.
02306a8f-b410-456c-9c6b-1d083ee9010a
Wheeler, A.A.
eb831100-6e51-4674-878a-a2936ad04d73
Winters, K.H.
dada063e-b2f3-4858-bb18-0a7bd268987f
1991
Impey, M.D.
a95f93d8-93b9-4adb-9e55-624e39f6f2bd
Riley, D.S.
02306a8f-b410-456c-9c6b-1d083ee9010a
Wheeler, A.A.
eb831100-6e51-4674-878a-a2936ad04d73
Winters, K.H.
dada063e-b2f3-4858-bb18-0a7bd268987f
Impey, M.D., Riley, D.S., Wheeler, A.A. and Winters, K.H.
(1991)
Bifurcation-analysis of solutal convection during directional solidification.
Physics of Fluids A, 3 (4), .
Abstract
Techniques of bifurcation theory are used to analyze the possible forms of steady, two-dimensional, buoyancy-driven flow present during the vertical directional solidification of a dilute binary mixture. Morphological instabilities of the crystal-melt interface are ignored and the interface is assumed to be planar. The focus of the study concerns the effect of lateral confinement on the flow patterns observable in this simple model system. The use of a time-dependent numerical scheme by McFadden and Coriell [Proceedings of the First National Fluid Dynamics Congress, Cincinnati (AIAA, Washington, DC, 1988), p. 1572] to investigate this same problem resulted in gaps in the bifurcation structure, because unstable steady states exist that cannot be computed by their method. The present work extends and completes the description of the possible steady states. In particular, the complex modal exchanges that occur as the separation between the lateral walls varies are elucidated, and stable flow regimes and the sensitivity of the results to the closure condition at the upper boundary are determined.
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Published date: 1991
Keywords:
Dilute binary alloy, morphological instability, thermosolutal convection, hydrodynamic stability, benard convection, melt, interface, growth
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Local EPrints ID: 819
URI: http://eprints.soton.ac.uk/id/eprint/819
PURE UUID: bbfa460d-8155-4cba-a8a2-068526a3fc28
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Date deposited: 25 Mar 2004
Last modified: 11 Dec 2021 13:19
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Contributors
Author:
M.D. Impey
Author:
D.S. Riley
Author:
A.A. Wheeler
Author:
K.H. Winters
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