Journal article

Optimal and hysteretic fluxes in alloy solidification: Variational principles and chimney spacing

Abstract:: We take a numerical approach to analyze the mechanisms controlling the spacing of chimneys -- channels devoid of solid -- in two-dimensional mushy layers formed by solidifying a binary alloy. Chimneys are the principal conduits through which buoyancy effects transport material out of the mushy layer and into the liquid from which it formed. Experiments show a coarsening of chimney spacing and we pursue the hypothesis that this observation is a consequence of a variational principle: the chimney spacing adjusts to optimize material transport and hence maximize the rate of removal of potential energy stored in the mushy layer. The optimal solute flux increases approximately linearly with the mushy layer Rayleigh number. However, for spacings below a critical value the chimneys collapse and solute fluxes cease, revealing a hysteresis between chimney convection and no flow.

Publication status:: Not published

Peer review status:: Not peer reviewed

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APA Style

Wells, A. J., Wettlaufer, J. S., & Orszag, S. A. (2018). Optimal and hysteretic fluxes in alloy solidification: Variational principles and chimney spacing. Arxiv.

MLA Style

Wells, A. J., et al. “Optimal and Hysteretic Fluxes in Alloy Solidification: Variational Principles and Chimney Spacing.” Arxiv, 2018.

Chicago Style

Wells, AJ, JS Wettlaufer, and SA Orszag. 2018. “Optimal and Hysteretic Fluxes in Alloy Solidification: Variational Principles and Chimney Spacing.” Arxiv.
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Files:: 1011.1223v1.pdf

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Authors

+ Wells, AJ More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Physics
Sub department:: Atmos Ocean & Planet Physics
Oxford college:: Wolfson College
Role:: Author

+ Wettlaufer, JS More by this author

Role:: Author

+ Orszag, SA More by this author

Role:: Author

Journal:: Arxiv More from this journal
Acceptance date:: 2010-11-01

Keywords:: SBTMR
Pubs id:: pubs:446372
UUID:: uuid:86321e55-705d-4351-bbc6-f07b7db9a7a2
Local pid:: pubs:446372
Source identifiers:: 446372
Deposit date:: 2018-07-30

Terms of use

Copyright holder:: Wells et al
Notes:: © The Authors 2010.

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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