A Coupled Sharp-Interface Immersed Boundary-Finite-Element Method for Flow-Structure Interaction With Application to Human Phonation

X. Zheng; Q. Xue; R. Mittal; S. Beilamowicz

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A Coupled Sharp-Interface Immersed Boundary-Finite-Element Method for Flow-Structure Interaction With Application to Human Phonation

机译：流场相互作用的尖锐界面沉浸边界有限元法及其在人声中的应用

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摘要

A new flow-structure interaction method is presented, which couples a sharp-interface immersed boundary method flow solver with a finite-element method based solid dynamics solver. The coupled method provides robust and high-fidelity solution for complex flow-structure interaction (FSI) problems such as those involving three-dimensional flow and viscoelastic solids. The FSI solver is used to simulate flow-induced vibrations of the vocal folds during phonation. Both two- and three-dimensional models have been examined and qualitative, as well as quantitative comparisons, have been made with established results in order to validate the solver. The solver is used to study the onset of phonation in a two-dimensional laryngeal model and the dynamics of the glottal jet in a three-dimensional model and results from these studies are also presented.

机译：提出了一种新的流固耦合方法，该方法将尖锐界面沉浸边界方法流求解器与基于有限元方法的固体动力学求解器相结合。耦合方法为复杂的流固耦合（FSI）问题（例如涉及三维流和粘弹性固体的问题）提供了鲁棒且高保真的解决方案。 FSI求解器用于模拟发声过程中声带的流动引起的振动。二维和三维模型都经过了检查，并已定性地进行了定性和定量比较，以验证求解器。该求解器用于在二维喉模型中研究发声的开始，在三维模型中研究声门射流的动力学，并给出了这些研究的结果。

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来源
《Journal of biomechanical engineering.》 |2010年第11期|共12页
作者
X. Zheng; Q. Xue; R. Mittal; S. Beilamowicz;
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正文语种 eng
中图分类生物力学;医用一般科学;
关键词
Immersed boundary method; Finite-element method flow-structure interaction; Phonation; Flow-induced vibration;

机译：浸入边界法;有限元法;流固耦合;声击;流致振动;

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1. A Coupled Sharp-Interface Immersed Boundary-Finite-Element Method for Flow-Structure Interaction With Application to Human Phonation [J] . X. Zheng, Q. Xue, R. Mittal, Journal of biomechanical engineering. . 2010,第11期

机译：流场相互作用的尖锐界面沉浸边界有限元法及其在人声中的应用
2. A sharp-interface immersed smoothed finite element method for interactions between incompressible flows and large deformation solids [J] . Jiang Chen, Yao Jian-Yao, Zhang Zhi-Qian, Computer Methods in Applied Mechanics and Engineering . 2018,第OCTa1期

机译：用于不可压缩流与大变形固体相互作用的尖锐界面沉浸式光滑有限元方法
3. An immersed boundary-lattice Boltzmann method combined with a robust lattice spring model for solving flow-structure interaction problems [J] . B. Afra, M. Nazari, M.H. Kayhani, Applied Mathematical Modelling . 2018,第MARa期

机译：浸入边界格子Boltzmann方法与鲁棒晶格弹簧模型相结合来解决流固耦合问题
4. A level-set based boundary reconstruction method for 3-D bio-inspired flow simulations with sharp-interface immersed boundary method [C] . Xiaolong Deng, Pan Han, Junshi Wang, AIAA fluid dynamics conference;AIAA aviation forum . 2018

机译：基于水平集的边界重构方法，用于带有锐界面浸入边界方法的3D生物启发流模拟
5. Generalized polynomial chaos: Applications to random oscillators and flow-structure interactions. [D] . Lucor, Didier. 2004

机译：广义多项式混沌：应用于随机振荡器和流-结构相互作用。
6. A Coupled Sharp-Interface Immersed-Boundary-Finite-Element Method for Flow-Structure Interaction with Application to Human Phonation [O] . X. Zheng, Qian Xue, R. Mittal, -1

机译：流场相互作用的尖锐界面沉浸边界有限元耦合方法及其在人声中的应用
7. Analysis of flow-structure interaction in the larynx during phonation using an immersed-boundary method [O] . Luo, Haoxiang, Mittal, Rajat, Bielamowicz, Steven A. 2009

机译：浸入边界法分析发声过程中喉部的流固耦合

A Coupled Sharp-Interface Immersed Boundary-Finite-Element Method for Flow-Structure Interaction With Application to Human Phonation

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