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A numerical study of solid-liquid phase change with Marangoni effects using a multiphase approach - MaRDI portal

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A numerical study of solid-liquid phase change with Marangoni effects using a multiphase approach (Q979612)

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scientific article; zbMATH DE number 5727187
Language Label Description Also known as
English
A numerical study of solid-liquid phase change with Marangoni effects using a multiphase approach
scientific article; zbMATH DE number 5727187

    Statements

    title
    A numerical study of solid-liquid phase change with Marangoni effects using a multiphase approach (English)
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    author
    J. Martínez
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    publication date
    28 June 2010
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    review text
    Summary: Numerical simulations of the solid-liquid phase change of bismuth with a free surface are carried out under different gravity conditions. A multiphase approach using the Volume Of Fluid (VOF) method over a fixed grid is used to solve the thermocapillary induced flow of the melt and gas phases. The dynamics of the gas phase affects heat transfer from the free surface and consequently the position and shape of the growth front. Higher temperature gradients lead to stronger melt thermocapillary flow and more deformed crystal interfaces. Under normal gravity, buoyancy and thermocapillarity combine to add to the concavity of the interfaces.
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    zbMATH Keywords
    solidification
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    free surfaces
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    Marangoni convection
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    volume of fluid
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    VOF
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    solid-liquid phase change
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    numerical simulation
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    gas phase
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    melt phase
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    heat transfer
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    thermocapillary flow
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    deformation
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    crystal interfaces
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    buoyancy
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    concavity
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    thermocapillary convection
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    crystal growth melts
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    CFD
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    computational fluid dynamics
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    Identifiers

    Mathematics Subject Classification ID
    76T99
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    76M12
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    80A22
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    80A20
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    zbMATH DE Number
    5727187
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    OpenAlex ID
    W2040298285
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