Cellwise conservative unsplit advection for the volume of fluid method

We present a cellwise conservative unsplit (CCU) advection scheme for the volume of fluid method (VOF) in 2D. Contrary to other schemes based on explicit calculations of the flux balances, the CCU advection adopts a cellwise approach where the pre-images of the control volumes are traced backwards t...

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Published inJournal of computational physics Vol. 283; pp. 582 - 608
Main Authors Comminal, Raphaël, Spangenberg, Jon, Hattel, Jesper Henri
Format Journal Article
LanguageEnglish
Published Elsevier Inc 15.02.2015
Subjects
Advection
Cellwise approach
Computational fluid dynamics
Donating region
Fluid flow
Fluids
Intersections
Liquids
Mathematical analysis
Pre-image backward tracing
Unsplit advection scheme
Volume conservation
Volume fraction
Volume of fluid
Cellwise approach
Pre-image backward tracing
Volume conservation
Unsplit advection scheme
Donating region
Volume of fluid
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Abstract We present a cellwise conservative unsplit (CCU) advection scheme for the volume of fluid method (VOF) in 2D. Contrary to other schemes based on explicit calculations of the flux balances, the CCU advection adopts a cellwise approach where the pre-images of the control volumes are traced backwards through the flow map. The donating regions of the fluxes are calculated via the streaklines of the grid intersections, represented as polygonal chains whose vertices are determined by backward tracing of particles injected in the flow at different times. High order accuracy is obtained from the fourth-order Runge–Kutta method, where intermediate velocities along pathlines are determined with quadratic temporal and bicubic spatial interpolations. The volumes of the donating regions are corrected in order to fulfill the discrete continuity of incompressible flows. Consequently, the calculation produces non-overlapping donating regions and pre-images with conforming edges to their neighbors, resulting in the conservativeness and the boundedness (liquid volume fraction inside the interval [0,1]) of the CCU advection scheme. Finally, the update of the liquid volume fractions is computed from the intersections of the pre-image polygons with the reconstructed interfaces. The CCU scheme is tested on several benchmark tests for the VOF advection, together with the standard piecewise linear interface calculation (PLIC). The geometrical errors of the CCU compare favorably with other unsplit VOF-PLIC schemes. Finally, potential improvements of the VOF method with the use of more precise interface representation techniques and the future extension of the CCU scheme to 3D are discussed. •Cellwise VOF-update through backward tracing of the cell's pre-image.•Accuracy enhanced via bicubic spatial interpolation and polygonal chain streakline.•The CCU advection scheme is fully conservative and bounded.•No limitation on the Courant number.•Geometrical errors dominated by PLIC interface representation errors.
AbstractList We present a cellwise conservative unsplit (CCU) advection scheme for the volume of fluid method (VOF) in 2D. Contrary to other schemes based on explicit calculations of the flux balances, the CCU advection adopts a cellwise approach where the pre-images of the control volumes are traced backwards through the flow map. The donating regions of the fluxes are calculated via the streaklines of the grid intersections, represented as polygonal chains whose vertices are determined by backward tracing of particles injected in the flow at different times. High order accuracy is obtained from the fourth-order Runge-Kutta method, where intermediate velocities along pathlines are determined with quadratic temporal and bicubic spatial interpolations. The volumes of the donating regions are corrected in order to fulfill the discrete continuity of incompressible flows. Consequently, the calculation produces non-overlapping donating regions and preimages with conforming edges to their neighbors, resulting in the conservativeness and the boundedness (liquid volume fraction inside the interval [0,1]) of the CCU advection scheme. Finally, the update of the liquid volume fractions is computed from the intersections of the pre-image polygons with the reconstructed interfaces. The CCU scheme is tested on several benchmark tests for the VOF advection, together with the standard piecewise linear interface calculation (PLIC). The geometrical errors of the CCU compare favorably with other unsplit VOF-PLIC schemes. Finally, potential improvements of the VOF method with the use of more precise interface representation techniques and the future extension of the CCU scheme to 3D are discussed.
We present a cellwise conservative unsplit (CCU) advection scheme for the volume of fluid method (VOF) in 2D. Contrary to other schemes based on explicit calculations of the flux balances, the CCU advection adopts a cellwise approach where the pre-images of the control volumes are traced backwards through the flow map. The donating regions of the fluxes are calculated via the streaklines of the grid intersections, represented as polygonal chains whose vertices are determined by backward tracing of particles injected in the flow at different times. High order accuracy is obtained from the fourth-order Runge–Kutta method, where intermediate velocities along pathlines are determined with quadratic temporal and bicubic spatial interpolations. The volumes of the donating regions are corrected in order to fulfill the discrete continuity of incompressible flows. Consequently, the calculation produces non-overlapping donating regions and pre-images with conforming edges to their neighbors, resulting in the conservativeness and the boundedness (liquid volume fraction inside the interval [0,1]) of the CCU advection scheme. Finally, the update of the liquid volume fractions is computed from the intersections of the pre-image polygons with the reconstructed interfaces. The CCU scheme is tested on several benchmark tests for the VOF advection, together with the standard piecewise linear interface calculation (PLIC). The geometrical errors of the CCU compare favorably with other unsplit VOF-PLIC schemes. Finally, potential improvements of the VOF method with the use of more precise interface representation techniques and the future extension of the CCU scheme to 3D are discussed. •Cellwise VOF-update through backward tracing of the cell's pre-image.•Accuracy enhanced via bicubic spatial interpolation and polygonal chain streakline.•The CCU advection scheme is fully conservative and bounded.•No limitation on the Courant number.•Geometrical errors dominated by PLIC interface representation errors.
Author Comminal, Raphaël
Hattel, Jesper Henri
Spangenberg, Jon
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  surname: Comminal
  fullname: Comminal, Raphaël
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  givenname: Jon
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  fullname: Spangenberg, Jon
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– sequence: 3
  givenname: Jesper Henri
  surname: Hattel
  fullname: Hattel, Jesper Henri
  organization: Department of Mechanical Engineering, Technical University of Denmark, Produktionstorvet, 2800 Kgs. Lyngby, Denmark
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Keywords Cellwise approach
Pre-image backward tracing
Volume conservation
Unsplit advection scheme
Donating region
Volume of fluid
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Snippet We present a cellwise conservative unsplit (CCU) advection scheme for the volume of fluid method (VOF) in 2D. Contrary to other schemes based on explicit...
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SubjectTerms Advection
Cellwise approach
Computational fluid dynamics
Donating region
Fluid flow
Fluids
Intersections
Liquids
Mathematical analysis
Pre-image backward tracing
Unsplit advection scheme
Volume conservation
Volume fraction
Volume of fluid
Title Cellwise conservative unsplit advection for the volume of fluid method
URI https://dx.doi.org/10.1016/j.jcp.2014.12.003
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Volume 283
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