Higher order unfitted FEM for Stokes interface problems

Philip Lederer; Carl-Martin Pfeiler; Christoph Wintersteiger; Christoph Lehrenfeld

doi:10.1002/pamm.201610003

Higher order unfitted FEM for Stokes interface problems

Philip Lederer, Carl-Martin Pfeiler, Christoph Wintersteiger, Christoph Lehrenfeld

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

We consider the discretization of a stationary Stokes interface problem in a velocity-pressure formulation. The interface is described implicitly as the zero level of a scalar function as it is common in level set based methods. Hence, the interface is not aligned with the mesh. An unfitted finite element discretization based on a Taylor-Hood velocity-pressure pair and an XFEM (or CutFEM) modification is used for the approximation of the solution. This allows for the accurate approximation of solutions which have strong or weak discontinuities across interfaces which are not aligned with the mesh. To arrive at a consistent, stable and accurate formulation we require several additional techniques. First, a Nitsche-type formulation is used to implement interface conditions in a weak sense. Secondly, we use the ghost penalty stabilization to obtain an inf-sup stable variational formulation. Finally, for the highly accurate approximation of the implicitly described geometry, we use a combination of a piecewise linear interface reconstruction and a parametric mapping of the underlying mesh. We introduce the method and discuss results of numerical examples. (© 2016 Wiley-VCH Verlag GmbH Co. KGaA, Weinheim)

Original language	English
Title of host publication	Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016
Publisher	Wiley
Pages	7-10
Number of pages	4
DOIs	https://doi.org/10.1002/pamm.201610003
Publication status	Published - 2016
Externally published	Yes

Publication series

Name	Proceedings in Applied Mathematics and Mechanics
Publisher	Wiley
Number	1, Special Issue
Volume	16
ISSN (Electronic)	1617-7061

Keywords

n/a OA procedure

Access to Document

10.1002/pamm.201610003

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Lederer, P., Pfeiler, C.-M., Wintersteiger, C., & Lehrenfeld, C. (2016). Higher order unfitted FEM for Stokes interface problems. In Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016 (pp. 7-10). (Proceedings in Applied Mathematics and Mechanics; Vol. 16, No. 1, Special Issue). Wiley. https://doi.org/10.1002/pamm.201610003

Lederer, Philip ; Pfeiler, Carl-Martin ; Wintersteiger, Christoph et al. / Higher order unfitted FEM for Stokes interface problems. Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016. Wiley, 2016. pp. 7-10 (Proceedings in Applied Mathematics and Mechanics; 1, Special Issue).

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title = "Higher order unfitted FEM for Stokes interface problems",

abstract = "We consider the discretization of a stationary Stokes interface problem in a velocity-pressure formulation. The interface is described implicitly as the zero level of a scalar function as it is common in level set based methods. Hence, the interface is not aligned with the mesh. An unfitted finite element discretization based on a Taylor-Hood velocity-pressure pair and an XFEM (or CutFEM) modification is used for the approximation of the solution. This allows for the accurate approximation of solutions which have strong or weak discontinuities across interfaces which are not aligned with the mesh. To arrive at a consistent, stable and accurate formulation we require several additional techniques. First, a Nitsche-type formulation is used to implement interface conditions in a weak sense. Secondly, we use the ghost penalty stabilization to obtain an inf-sup stable variational formulation. Finally, for the highly accurate approximation of the implicitly described geometry, we use a combination of a piecewise linear interface reconstruction and a parametric mapping of the underlying mesh. We introduce the method and discuss results of numerical examples. ({\textcopyright} 2016 Wiley-VCH Verlag GmbH Co. KGaA, Weinheim)",

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publisher = "Wiley",

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Lederer, P, Pfeiler, C-M, Wintersteiger, C & Lehrenfeld, C 2016, Higher order unfitted FEM for Stokes interface problems. in Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016. Proceedings in Applied Mathematics and Mechanics, no. 1, Special Issue, vol. 16, Wiley, pp. 7-10. https://doi.org/10.1002/pamm.201610003

Higher order unfitted FEM for Stokes interface problems. / Lederer, Philip; Pfeiler, Carl-Martin; Wintersteiger, Christoph et al.
Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016. Wiley, 2016. p. 7-10 (Proceedings in Applied Mathematics and Mechanics; Vol. 16, No. 1, Special Issue).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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T1 - Higher order unfitted FEM for Stokes interface problems

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AU - Wintersteiger, Christoph

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Y1 - 2016

N2 - We consider the discretization of a stationary Stokes interface problem in a velocity-pressure formulation. The interface is described implicitly as the zero level of a scalar function as it is common in level set based methods. Hence, the interface is not aligned with the mesh. An unfitted finite element discretization based on a Taylor-Hood velocity-pressure pair and an XFEM (or CutFEM) modification is used for the approximation of the solution. This allows for the accurate approximation of solutions which have strong or weak discontinuities across interfaces which are not aligned with the mesh. To arrive at a consistent, stable and accurate formulation we require several additional techniques. First, a Nitsche-type formulation is used to implement interface conditions in a weak sense. Secondly, we use the ghost penalty stabilization to obtain an inf-sup stable variational formulation. Finally, for the highly accurate approximation of the implicitly described geometry, we use a combination of a piecewise linear interface reconstruction and a parametric mapping of the underlying mesh. We introduce the method and discuss results of numerical examples. (© 2016 Wiley-VCH Verlag GmbH Co. KGaA, Weinheim)

AB - We consider the discretization of a stationary Stokes interface problem in a velocity-pressure formulation. The interface is described implicitly as the zero level of a scalar function as it is common in level set based methods. Hence, the interface is not aligned with the mesh. An unfitted finite element discretization based on a Taylor-Hood velocity-pressure pair and an XFEM (or CutFEM) modification is used for the approximation of the solution. This allows for the accurate approximation of solutions which have strong or weak discontinuities across interfaces which are not aligned with the mesh. To arrive at a consistent, stable and accurate formulation we require several additional techniques. First, a Nitsche-type formulation is used to implement interface conditions in a weak sense. Secondly, we use the ghost penalty stabilization to obtain an inf-sup stable variational formulation. Finally, for the highly accurate approximation of the implicitly described geometry, we use a combination of a piecewise linear interface reconstruction and a parametric mapping of the underlying mesh. We introduce the method and discuss results of numerical examples. (© 2016 Wiley-VCH Verlag GmbH Co. KGaA, Weinheim)

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Lederer P, Pfeiler CM, Wintersteiger C, Lehrenfeld C. Higher order unfitted FEM for Stokes interface problems. In Joint 87th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM) and Deutsche Mathematiker-Vereinigung (DMV), Braunschweig 2016. Wiley. 2016. p. 7-10. (Proceedings in Applied Mathematics and Mechanics; 1, Special Issue). doi: 10.1002/pamm.201610003

Higher order unfitted FEM for Stokes interface problems

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