Adaptive finite element computational fluid dynamics using an anisotropic error estimator

The aim of this paper is to present the results on finite element adaptive strategies for computational fluid dynamics (CFD) problems with singularities arising from shock phenomena and/or discontinuous boundary data. The adaptive analysis is based on an optimal-mesh-adaptive strategy which is emplo...

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Bibliographic Details
Published in:Computer methods in applied mechanics and engineering 2000-02, Vol.182 (3), p.379-400
Main Authors: Almeida, Regina C., Feijóo, Raúl A., Galeão, Augusto C., Padra, Claudio, Silva, Renato S.
Format: Article
Language:English
Subjects:
Adaptive analysis
Computational fluid dynamics
Computational methods in fluid dynamics
Computational techniques
Error estimator
Exact sciences and technology
Finite elements
Finite-element and galerkin methods
Fluid dynamics
Fundamental areas of phenomenology (including applications)
Mathematical methods in physics
Mesh generation
Physics
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Summary:The aim of this paper is to present the results on finite element adaptive strategies for computational fluid dynamics (CFD) problems with singularities arising from shock phenomena and/or discontinuous boundary data. The adaptive analysis is based on an optimal-mesh-adaptive strategy which is employed to refine the mesh, stretch and orient the elements in such a way that, along the adaptation process, the mesh becomes aligned with the discontinuities. This mesh adaptation process yields improved results in locating regions of rapid or abrupt variations of the variables, whose location is not known a priori. On the other hand, the proposed mesh adaptation process is generated by minimizing, for a given number of elements in the mesh, a new anisotropic error estimator based on local directional interpolation error and recovering of the second derivatives of the finite element solution. Several adaptive mesh-refinement solutions for interpolation problems are presented in order to show that the proposed optimal adaptive strategy using this anisotropic error estimator recovers optimal and/or superconvergent rates. Finally, applications of this approach to CFD problems are also presented in order to show the computational performance of the proposed optimal adaptive procedure.
ISSN:0045-7825
1879-2138
DOI:10.1016/S0045-7825(99)00200-5