Wavelet Element Modelling for Inviscid Fluid–Solid Coupling Problem based on Partitioned Approach

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ID: 113103
2020
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Abstract
To provide a simple numerical formulation based on fixed grids, a wavelet element method for fluid–solid modelling is introduced in this work. Compared with the classical wavelet finite element method, the presented method can potentially handle more complex shapes. Considering the differences between the solid and fluid regions, a damping-like interface based on wavelet elements is designed, in order to ensure consistency between the two parts. The inner regions are constructed with the same wavelet function in space. In the time and spatial domains, a partitioned approach based on Jacobi iteration is combined with the pseudo-parallel calculation method. Numerical convergence analyses show that the method can serve as an alternative choice for fluid–solid coupling modelling.
Reference Key
chen2020materialswavelet Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors Zhi-Bo Yang,Hao-Qi Li,Bai-Jie Qiao,Xue-Feng Chen;Zhi-Bo Yang;Hao-Qi Li;Bai-Jie Qiao;Xue-Feng Chen;
Journal Materials (Basel, Switzerland)
Year 2020
DOI
10.3390/ma13173699
URL
https://sciprofiles.com/publication/view/c755c077d812ef72910c3ac0dc144809
Keywords
fluid–solid coupling wave propagation wavelet element partitioned approach

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