3D level set methods for evolving fronts on tetrahedral meshes with adaptive mesh refinement

3D level set methods for evolving fronts on tetrahedral meshes with adaptive mesh refinement

The level set method is commonly used to model dynamically evolving fronts and interfaces. In this work, we present new methods for evolving fronts with a specified velocity field or in the surface normal direction on 3D unstructured tetrahedral meshes with adaptive mesh refinement (AMR). The level...

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Veröffentlicht in:Journal of computational physics 2017-05, Vol.336 (C), p.492-512
Hauptverfasser: Morgan, Nathaniel R., Waltz, Jacob I.
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive mesh refinement (AMR)
Advection
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
Computational physics
Eulerian
Eulers equations
Evolution
Finite difference
Finite element method
Hamilton–Jacobi
Interfaces
Iterative methods
Level set
MATHEMATICS AND COMPUTING
Numerical methods
Point-centered
Runge-Kutta method
Studies
Tetrahedra
Tetrahedral meshes
Velocity
Velocity distribution
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Zusammenfassung:The level set method is commonly used to model dynamically evolving fronts and interfaces. In this work, we present new methods for evolving fronts with a specified velocity field or in the surface normal direction on 3D unstructured tetrahedral meshes with adaptive mesh refinement (AMR). The level set field is located at the nodes of the tetrahedral cells and is evolved using new upwind discretizations of Hamilton–Jacobi equations combined with a Runge–Kutta method for temporal integration. The level set field is periodically reinitialized to a signed distance function using an iterative approach with a new upwind gradient. The details of these level set and reinitialization methods are discussed. Results from a range of numerical test problems are presented.
ISSN:0021-9991
1090-2716
DOI:10.1016/j.jcp.2017.02.030