Fluid friction and wall viscosity of the 1D blood flow model

Abstract We study the behavior of the pulse waves of water into a flexible tube for application to blood flow simulations. In pulse waves both fluid friction and wall viscosity are damping factors, and difficult to evaluate separately. In this paper, the coefficients of fluid friction and wall visco...

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Published inJournal of biomechanics Vol. 49; no. 4; pp. 565 - 571
Main Authors Wang, Xiao-Fei, Nishi, Shohei, Matsukawa, Mami, Ghigo, Arthur, Lagrée, Pierre-Yves, Fullana, Jose-Maria
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 29.02.2016
Elsevier Limited
Elsevier
Subjects
Biomechanics
Blood Circulation
Blood flow
Computational fluid dynamics
Damping
Design engineering
Elasticity
Experiments
Fluid flow
Fluid friction
Friction
Hemodynamics
Hydrodynamics
Mathematical models
Mechanics
Models, Biological
Nonlinear Dynamics
One-dimensional modeling
Physical Medicine and Rehabilitation
Physics
Physiology
Pressure
Pulse wave propagation
Studies
Tubes
Velocity
Viscoelasticity
Viscosity
Water
Viscoelasticity
Pulse wave propagation
Fluid friction
One-dimensional modeling
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Abstract Abstract We study the behavior of the pulse waves of water into a flexible tube for application to blood flow simulations. In pulse waves both fluid friction and wall viscosity are damping factors, and difficult to evaluate separately. In this paper, the coefficients of fluid friction and wall viscosity are estimated by fitting a nonlinear 1D flow model to experimental data. In the experimental setup, a distensible tube is connected to a piston pump at one end and closed at another end. The pressure and wall displacements are measured simultaneously. A good agreement between model predictions and experiments was achieved. For amplitude decrease, the effect of wall viscosity on the pulse wave has been shown as important as that of fluid viscosity.
AbstractList We study the behavior of the pulse waves of water into a flexible tube for application to blood flow simulations. In pulse waves both fluid friction and wall viscosity are damping factors, and difficult to evaluate separately. In this paper, the coefficients of fluid friction and wall viscosity are estimated by fitting a nonlinear 1D flow model to experimental data. In the experimental setup, a distensible tube is connected to a piston pump at one end and closed at another end. The pressure and wall displacements are measured simultaneously. A good agreement between model predictions and experiments was achieved. For amplitude decrease, the effect of wall viscosity on the pulse wave has been shown as important as that of fluid viscosity.
Abstract We study the behavior of the pulse waves of water into a flexible tube for application to blood flow simulations. In pulse waves both fluid friction and wall viscosity are damping factors, and difficult to evaluate separately. In this paper, the coefficients of fluid friction and wall viscosity are estimated by fitting a nonlinear 1D flow model to experimental data. In the experimental setup, a distensible tube is connected to a piston pump at one end and closed at another end. The pressure and wall displacements are measured simultaneously. A good agreement between model predictions and experiments was achieved. For amplitude decrease, the effect of wall viscosity on the pulse wave has been shown as important as that of fluid viscosity.
Author Nishi, Shohei
Matsukawa, Mami
Wang, Xiao-Fei
Fullana, Jose-Maria
Ghigo, Arthur
Lagrée, Pierre-Yves
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  fullname: Lagrée, Pierre-Yves
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  fullname: Fullana, Jose-Maria
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Issue 4
Keywords Viscoelasticity
Pulse wave propagation
Fluid friction
One-dimensional modeling
Language English
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Snippet Abstract We study the behavior of the pulse waves of water into a flexible tube for application to blood flow simulations. In pulse waves both fluid friction...
We study the behavior of the pulse waves of water into a flexible tube for application to blood flow simulations. In pulse waves both fluid friction and wall...
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StartPage 565
SubjectTerms Biomechanics
Blood Circulation
Blood flow
Computational fluid dynamics
Damping
Design engineering
Elasticity
Experiments
Fluid flow
Fluid friction
Friction
Hemodynamics
Hydrodynamics
Mathematical models
Mechanics
Models, Biological
Nonlinear Dynamics
One-dimensional modeling
Physical Medicine and Rehabilitation
Physics
Physiology
Pressure
Pulse wave propagation
Studies
Tubes
Velocity
Viscoelasticity
Viscosity
Water
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Title Fluid friction and wall viscosity of the 1D blood flow model
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