FE numerical simulation of incompressible airflow in the glottal channel periodically closed by self-sustained vocal folds vibration

Svacek Petr; Horacek Jaromir

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FE numerical simulation of incompressible airflow in the glottal channel periodically closed by self-sustained vocal folds vibration

机译：通过自持续发声折叠振动定期关闭光学通道中不可压缩气流的FE数值模拟

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In this paper a simplified mathematical model related to human phonation process is presented. Main attention is paid to the treatment of vocal fold vibrations excited by viscous incompressible airflow, which is stopped (chopped) by their periodical contacts. The Hertz impact model is used in the structural part and two new strategies are suggested to treat the contact phenomena in the fluid model. The numerical discretization by finite element (FE) method is described and the model problem is numerically approximated using a penalty approach in the inlet boundary condition for airflow and a thin porous layer in the glottis during the glottal closure. The numerical results are presented and discussed. (c) 2021 Elsevier B.V. All rights reserved.

机译：本文提出了一个与人类发声过程有关的简化数学模型。主要关注的是治疗由粘性不可压缩气流激发的声带振动，这种振动被周期性接触所阻止（切断）。结构部分采用赫兹碰撞模型，并提出了两种新的策略来处理流体模型中的接触现象。描述了有限元（FE）方法的数值离散，并在声门闭合期间，在气流和声门中的薄多孔层的入口边界条件下，使用惩罚方法对模型问题进行了数值近似。给出了数值结果并进行了讨论。（c）2021爱思唯尔B.V.保留所有权利。

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《Journal of Computational and Applied Mathematics 》 |2021年第1期| 共11页
作者
Svacek Petr; Horacek Jaromir;
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作者单位

Czech Tech Univ Fac Mech Engn Dept Tech Math Karlovo 13 Prague 12135 2 Czech Republic;

Inst Thermomech ASCR Dolejskova 1402-5 Prague 18200 Czech Republic;

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原文格式 PDF
正文语种 eng
中图分类计算数学 ; 应用数学 ;
关键词
Navier-Stokes equations; Penalty approach; Porous medium in contact;

机译：Navier-Stokes方程式;罚球方法;接触的多孔介质;

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1. NUMERICAL INVESTIGATION OF THREE-DIMENSIONAL VISCOUS INCOMPRESSIBLE FLOWS IN DIVERGENT CURVED CHANNELS AND TURBULENT MODEL STUDY [J] . 焦德勇, 杨弘炜, 赵志君, 应用数学和力学：英文版 . 1989 ,第007期
2. Numerical simulation of channel pattern changes Part Ⅱ： Application in a conceptual channel [J] . Hong WANG, Gang ZHOU, Xuejun SHAO 国际泥沙研究：英文版 . 2010 ,第004期
3. Numerical simulation of channel pattern changes Part Ⅱ: Application in a conceptual channel [J] . Hong WANG, Gang ZHOU, Xuejun SHAO 国际泥沙研究（英文版） . 2010 ,第004期
4. Numerical simulation of airflow distribution in mine tunnels [J] . Ding Cui, He Xueqiu, Nie Baisheng 矿业科学技术（英文版） . 2017 ,第004期
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6. A computational study of the effect of false vocal folds on glottal flow and vocal fold vibration during phonation. [J] . Zheng X, Bielamowicz S, Luo H, Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society . 2009 ,第3期

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8. Age- and Gender-Related Difference of Vocal Fold Vibration and Glottal Configuration in Normal Speakers: Analysis With Glottal Area Waveform [J] . Akihito Yamauchi, Hisayuki Yokonishi, Hiroshi Imagawa, Journal of voice: official journal of the Voice Foundation . 2014 ,第5期

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FE numerical simulation of incompressible airflow in the glottal channel periodically closed by self-sustained vocal folds vibration

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