Peter A. Cavallo scite author profile

*Adaptive, unstructured grid methods, in which the mesh is allowed to deform, and grid quality subsequently restored through localized coarsening and refinement, offer the potential of a more rapid, straightforward approach to generalized moving body problems. Automation of this mesh movement and quality correction strategy requires a close coupling with the flow solution process. With parallel simulations now common, parallel coarsening and refinement methods for moving meshes are needed. In this work, parallel mesh adaptation strategies are developed to treat deforming, decomposed domains. Distortion of the moving mesh is assessed using a deformation matrix analysis. A two-pass approach is implemented in which cell migration shifts the interprocessor boundary, thereby accommodating coarsening and refinement of the interprocessor faces. The adapted grids are rebalanced among the processors using available techniques. Representative cases are presented to demonstrate the parallel approach and maintenance of cell quality for practical separation events.

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Dynamic unstructured grid methodology with application to aero/propulsive flowfields

Cavallo

Hosangadi

Lee

et al. 1997

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Parallel Unstructured Mesh Adaptation Method for Moving Body Applications

2005

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Peter A. Cavallo

Dynamic adaptation for deforming tetrahedral meshes

Hybrid, viscous, unstructured mesh solver for propulsive applications

Parallel Unstructured Mesh Adaptation for Transient Moving Body and Aeropropulsive Applications

Dynamic unstructured grid methodology with application to aero/propulsive flowfields

Parallel Unstructured Mesh Adaptation Method for Moving Body Applications

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