Fluid-structure interaction in internal physiological flows

Matthias Heil; Andrew L. Hazel

doi:10.1146/annurev-fluid-122109-160703

Fluid-structure interaction in internal physiological flows

Research output: Chapter in Book/Conference proceeding › Chapter

Abstract

We provide a selective review of recent progress in the analysis of several physiological and physiologically inspired fluid-structure interaction problems, our aim being to explain the underlying physical mechanisms that cause the observed behaviors. Specifically, we discuss recent studies of self-excited oscillations in collapsible tubes, focusing primarily on studies of an idealized model system, the Starling resistorâ€"a device used in most laboratory experiments. We next review studies of a particular physiological, flow-induced oscillation: vocal-fold oscillations during phonation. Finally, we discuss the closure and reopening of pulmonary airways, physiological fluid-structure interaction problems that also involve the airways' liquid lining. © 2011 by Annual Reviews. All rights reserved.

Original language	English
Title of host publication	Annual Review of Fluid Mechanics\|Ann. Rev. Fluid Mech.
Publisher	Annual Reviews Inc
Pages	141-162
Number of pages	21
Volume	43
DOIs	https://doi.org/10.1146/annurev-fluid-122109-160703
Publication status	Published - 21 Jan 2011

Publication series

Name	Annual Review of Fluid Mechanics
Publisher	ANNUAL REVIEWS

Keywords

collapsible tubes
phonation
pulmonary airway closure
pulmonary airway reopening
self-excited oscillations

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10.1146/annurev-fluid-122109-160703

Cite this

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title = "Fluid-structure interaction in internal physiological flows",

abstract = "We provide a selective review of recent progress in the analysis of several physiological and physiologically inspired fluid-structure interaction problems, our aim being to explain the underlying physical mechanisms that cause the observed behaviors. Specifically, we discuss recent studies of self-excited oscillations in collapsible tubes, focusing primarily on studies of an idealized model system, the Starling resistor{\^a}€{"}a device used in most laboratory experiments. We next review studies of a particular physiological, flow-induced oscillation: vocal-fold oscillations during phonation. Finally, we discuss the closure and reopening of pulmonary airways, physiological fluid-structure interaction problems that also involve the airways' liquid lining. {\textcopyright} 2011 by Annual Reviews. All rights reserved.",

keywords = "collapsible tubes, phonation, pulmonary airway closure, pulmonary airway reopening, self-excited oscillations",

author = "Matthias Heil and Hazel, {Andrew L.}",

year = "2011",

month = jan,

day = "21",

doi = "10.1146/annurev-fluid-122109-160703",

language = "English",

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series = "Annual Review of Fluid Mechanics",

publisher = "Annual Reviews Inc",

pages = "141--162",

booktitle = "Annual Review of Fluid Mechanics|Ann. Rev. Fluid Mech.",

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TY - CHAP

T1 - Fluid-structure interaction in internal physiological flows

AU - Heil, Matthias

AU - Hazel, Andrew L.

PY - 2011/1/21

Y1 - 2011/1/21

N2 - We provide a selective review of recent progress in the analysis of several physiological and physiologically inspired fluid-structure interaction problems, our aim being to explain the underlying physical mechanisms that cause the observed behaviors. Specifically, we discuss recent studies of self-excited oscillations in collapsible tubes, focusing primarily on studies of an idealized model system, the Starling resistorâ€"a device used in most laboratory experiments. We next review studies of a particular physiological, flow-induced oscillation: vocal-fold oscillations during phonation. Finally, we discuss the closure and reopening of pulmonary airways, physiological fluid-structure interaction problems that also involve the airways' liquid lining. © 2011 by Annual Reviews. All rights reserved.

AB - We provide a selective review of recent progress in the analysis of several physiological and physiologically inspired fluid-structure interaction problems, our aim being to explain the underlying physical mechanisms that cause the observed behaviors. Specifically, we discuss recent studies of self-excited oscillations in collapsible tubes, focusing primarily on studies of an idealized model system, the Starling resistorâ€"a device used in most laboratory experiments. We next review studies of a particular physiological, flow-induced oscillation: vocal-fold oscillations during phonation. Finally, we discuss the closure and reopening of pulmonary airways, physiological fluid-structure interaction problems that also involve the airways' liquid lining. © 2011 by Annual Reviews. All rights reserved.

KW - collapsible tubes

KW - phonation

KW - pulmonary airway closure

KW - pulmonary airway reopening

KW - self-excited oscillations

U2 - 10.1146/annurev-fluid-122109-160703

DO - 10.1146/annurev-fluid-122109-160703

M3 - Chapter

VL - 43

T3 - Annual Review of Fluid Mechanics

SP - 141

EP - 162

BT - Annual Review of Fluid Mechanics|Ann. Rev. Fluid Mech.

PB - Annual Reviews Inc

ER -

Fluid-structure interaction in internal physiological flows

Abstract

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Keywords

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