ReALE: A reconnection-based arbitrary-Lagrangian–Eulerian method

We present a new reconnection-based arbitrary-Lagrangian–Eulerian (ALE) method. The main elements in a standard ALE simulation are an explicit Lagrangian phase in which the solution and grid are updated, a rezoning phase in which a new grid is defined, and a remapping phase in which the Lagrangian s...

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Bibliographic Details
Published in:Journal of computational physics 2010-06, Vol.229 (12), p.4724-4761
Main Authors: Loubère, Raphaël, Maire, Pierre-Henri, Shashkov, Mikhail, Breil, Jérôme, Galera, Stéphane
Format: Article
Language:English
Subjects:
Arbitrary-Lagrangian–Eulerian
Cell-centered scheme
Compressible flow
Computational techniques
Exact sciences and technology
Lagrangian hydrodynamics
Mathematical methods in physics
Mesh reconnection
Multi-dimensional unstructured polygonal mesh
Physics
Staggered scheme
Voronoi mesh
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Summary:We present a new reconnection-based arbitrary-Lagrangian–Eulerian (ALE) method. The main elements in a standard ALE simulation are an explicit Lagrangian phase in which the solution and grid are updated, a rezoning phase in which a new grid is defined, and a remapping phase in which the Lagrangian solution is transferred (conservatively interpolated) onto the new grid. In standard ALE methods the new mesh from the rezone phase is obtained by moving grid nodes without changing connectivity of the mesh. Such rezone strategy has its limitation due to the fixed topology of the mesh. In our new method we allow connectivity of the mesh to change in rezone phase, which leads to general polygonal mesh and allows to follow Lagrangian features of the mesh much better than for standard ALE methods. Rezone strategy with reconnection is based on using Voronoi tessellation. We demonstrate performance of our new method on series of numerical examples and show it superiority in comparison with standard ALE methods without reconnection.
ISSN:0021-9991
1090-2716
DOI:10.1016/j.jcp.2010.03.011