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    This article has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Riahi, D N 2017. Finite bandwidth, nonlinear convective flow in a mushy layer. Fluid Dynamics Research, Vol. 49, Issue. 2, p. 025513.
    Guba, Peter and Anderson, Daniel M. 2017. Pattern selection in ternary mushy layers. Journal of Fluid Mechanics, Vol. 825, Issue. , p. 853.
    Nield, Donald A. and Bejan, Adrian 2017. Convection in Porous Media. p. 539.
    Huguet, Ludovic Alboussière, Thierry Bergman, Michael I. Deguen, Renaud Labrosse, Stéphane and Lesœur, Germain 2016. Structure of a mushy layer under hypergravity with implications for Earth's inner core. Geophysical Journal International, Vol. 204, Issue. 3, p. 1729.
    Worster, M. Grae and Rees Jones, David W. 2015. Sea-ice thermodynamics and brine drainage. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 373, Issue. 2045, p. 20140166.
    Rees Jones, David W. and Worster, M. Grae 2014. A physically based parameterization of gravity drainage for sea-ice modeling. Journal of Geophysical Research: Oceans, Vol. 119, Issue. 9, p. 5599.
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Nonlinear mushy-layer convection with chimneys: stability and optimal solute fluxes

  • Andrew J. Wells (a1) (a2), J. S. Wettlaufer (a1) (a3) (a2) (a4) and Steven A. Orszag (a2)
Abstract

We model buoyancy-driven convection with chimneys – channels of zero solid fraction – in a mushy layer formed during directional solidification of a binary alloy in two dimensions. A large suite of numerical simulations is combined with scaling analysis in order to study the parametric dependence of the flow. Stability boundaries are calculated for states of finite-amplitude convection with chimneys, which for a narrow domain can be interpreted in terms of a modified Rayleigh number criterion based on the domain width and mushy-layer permeability. For solidification in a wide domain with multiple chimneys, it has previously been hypothesized that the chimney spacing will adjust to optimize the rate of removal of potential energy from the system. For a wide variety of initial liquid concentration conditions, we consider the detailed flow structure in this optimal state and derive scaling laws for how the flow evolves as the strength of convection increases. For moderate mushy-layer Rayleigh numbers these flow properties support a solute flux that increases linearly with Rayleigh number. This behaviour does not persist indefinitely, however, with porosity-dependent flow saturation resulting in sublinear growth of the solute flux for sufficiently large Rayleigh numbers. Finally, we consider the influence of the porosity dependence of permeability, with a cubic function and a Carman–Kozeny permeability yielding qualitatively similar system dynamics and flow profiles for the optimal states.

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©2013 Cambridge University Press
References
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Journal of Fluid Mechanics
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