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Implicit solution of inviscid flows on an unstructured mesh for bodies in large relative motion using a new grid movement scheme
Mazaheri, K ; Sharif University of Technology | 2006
274
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- Type of Document: Article
- DOI: 10.1504/PCFD.2006.010963
- Publisher: Inderscience Publishers , 2006
- Abstract:
- Both the grid movement scheme and the moving grid solver are considered. A new grid movement scheme for large amplitude moving boundaries such as store separation has been developed. Some popular grid movement methods have been studied to analyse capabilities of this method. In fact, this scheme could be an optimal combination of the overset grids method and the local remeshing as it uses their advantages and avoids some of their disadvantages. To have valid solution in moving grids, two conservation laws, which preserve independences of solution from grid motions, have been considered. These constraints, which are called Geometric Conservation Laws (GCL), have been satisfied implicitly using Arbitrary Lagrangian Eulerain (ALE) formulation. Validation study and a grid independency have been performed using a standard test case. A 2D store separation example is used for comparison of this and other popular algorithms to show their performance in analysis of large amplitude motions. Copyright © 2006 Inderscience Enterprises Ltd
- Keywords:
- Algorithms ; Arbitrary Lagrangian Eulerian ; Geometric Conservation Laws ; Grid movement scheme ; Inviscid flow ; Moving grid solver ; Computational fluid dynamics ; Compressible flow ; Computer simulation ; Lagrange multipliers
- Source: Progress in Computational Fluid Dynamics ; Volume 6, Issue 7 , 2006 , Pages 379-388 ; 14684349 (ISSN)
- URL: https://www.inderscience.com/info/inarticle.php?artid=10963