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Subsonic and transonic airfoil inverse design via Ball-Spine Algorithm
Nili Ahmadabadi, M ; Sharif University of Technology | 2013
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- Type of Document: Article
- DOI: 10.1016/j.compfluid.2013.05.007
- Publisher: 2013
- Abstract:
- Inverse design in external flow regimes usually involves finding the wall shape associated with a prescribed distribution of wall pressure or velocity. In this research, a novel iterative inverse design method is developed for inviscid subsonic and transonic external flow regimes. The method links up a novel inverse design algorithm, called Ball-Spine Algorithm (BSA), and a 2D inviscid analysis code. The Euler equations are solved for a physical domain of which some unknown boundaries are iteratively modified via BSA until a prescribed pressure distribution is reached. In BSA, the unknown walls are composed of a set of virtual balls that move freely along the specified directions called spines. The difference between target and current pressure distributions causes to deform the flexible boundary at each modification step. Some validation test cases and design examples in subsonic and transonic regimes are presented here which show the robustness and flexibility of the method in handling the complex geometries in various flow regimes
- Keywords:
- Aerodynamic ; Airfoil ; Ball-Spine ; Ball-Spine Algorithm ; Inverse design ; Complex geometries ; Flexible boundaries ; Inverse design methods ; Inverse designs ; Transonic airfoils ; Transonic regime ; Unknown boundary ; Aerodynamics ; Airfoils ; Algorithms ; Design ; Pressure distribution ; Iterative methods
- Source: Computers and Fluids ; Volume 84 , 2013 , Pages 87-96 ; 00457930 (ISSN)
- URL: http://www.sciencedirect.com/science/article/pii/S004579301300193X