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2020 | OriginalPaper | Chapter

14. Hybrid Lagrangian–Eulerian Method-Based CFSD Development, Application, and Analysis

Authors : Namshad Thekkethil, Atul Sharma

Published in: Immersed Boundary Method

Publisher: Springer Singapore

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Abstract

In this chapter, a partitioned approach-based hybrid Lagrangian–Eulerian (HLE) method and its application for analysis of various computational fluid–structure dynamics (CFSD) problems are presented. The HLE method uses a physical law-based finite volume method (FVM) and level-set function-based immersed boundary method (LS-IBM) for computational fluid dynamics (CFD), a geometric nonlinear Galerkin finite element method (FEM) for computational structural dynamics (CSD), and an implicit coupling between CFD and CSD that involves direct implementation of fluid–solid boundary conditions. The algebraic formulation is presented by the physics-based FVM for a Cartesian control volume in CFD and the geometric nonlinear Galerkin FEM for a three-node triangular element in CSD. Further, the associated solution methodologies are presented first separately for both CFD and CSD and then together with the implicit coupling methodology. The HLE method-based applications that involve large deformation and complex geometry (of the structure) are presented here for the analysis of various types of one-way and two-way coupled CFSD problems (involving both rigid and deformable or flexible structures).

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Metadata
Title
Hybrid Lagrangian–Eulerian Method-Based CFSD Development, Application, and Analysis
Authors
Namshad Thekkethil
Atul Sharma
Copyright Year
2020
Publisher
Springer Singapore
DOI
https://doi.org/10.1007/978-981-15-3940-4_14

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