A Finite-Element Simulation of Pulsatile Flow in Flexible Obstructed Tubes

E. Rooz; D. F. Young; T. R. Rogge

Source: Journal of Biomechanical Engineering:;1982:;volume( 104 ):;issue: 002::page 119

Author:

E. Rooz

D. F. Young

T. R. Rogge

DOI: 10.1115/1.3138324

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A finite-element model for pulsatile flow in a straight flexible partially obstructed tube is developed. In the unobstructed sections of the tube the model considers the continuity equation, the one-dimensional momentum equation, and an equation of state relating tube cross-sectional area to pressure. For the obstructed region, a nonlinear relationship between the flow and the pressure drop across the stenosis is considered. The applicability of a model is checked by comparing predicted flow and pressure waveforms with corresponding in-vitro experimental measurements obtained on a mechanical system. These comparisons indicate that the model satisfactorily predicts pressures and flows under variety of frequencies of oscillation and stenosis severities.

keyword(s): Simulation , Finite element analysis , Pulsatile flow , Flow (Dynamics) , Pressure , Equations , Equations of state , Finite element model , Frequency , Pressure drop , Momentum , Measurement AND Oscillations ,

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A Finite-Element Simulation of Pulsatile Flow in Flexible Obstructed Tubes

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Journal of Biomechanical Engineering

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contributor author	E. Rooz
contributor author	D. F. Young
contributor author	T. R. Rogge
date accessioned	2017-05-08T23:12:49Z
date available	2017-05-08T23:12:49Z
date copyright	May, 1982
date issued	1982
identifier issn	0148-0731
identifier other	JBENDY-25706#119_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/95553
description abstract	A finite-element model for pulsatile flow in a straight flexible partially obstructed tube is developed. In the unobstructed sections of the tube the model considers the continuity equation, the one-dimensional momentum equation, and an equation of state relating tube cross-sectional area to pressure. For the obstructed region, a nonlinear relationship between the flow and the pressure drop across the stenosis is considered. The applicability of a model is checked by comparing predicted flow and pressure waveforms with corresponding in-vitro experimental measurements obtained on a mechanical system. These comparisons indicate that the model satisfactorily predicts pressures and flows under variety of frequencies of oscillation and stenosis severities.
publisher	The American Society of Mechanical Engineers (ASME)
title	A Finite-Element Simulation of Pulsatile Flow in Flexible Obstructed Tubes
type	Journal Paper
journal volume	104
journal issue	2
journal title	Journal of Biomechanical Engineering
identifier doi	10.1115/1.3138324
journal fristpage	119
journal lastpage	124
identifier eissn	1528-8951
keywords	Simulation
keywords	Finite element analysis
keywords	Pulsatile flow
keywords	Flow (Dynamics)
keywords	Pressure
keywords	Equations
keywords	Equations of state
keywords	Finite element model
keywords	Frequency
keywords	Pressure drop
keywords	Momentum
keywords	Measurement AND Oscillations
tree	Journal of Biomechanical Engineering:;1982:;volume( 104 ):;issue: 002
contenttype	Fulltext

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