Pulsatile Blood Flow and Gas Exchange Across a Cylindrical Fiber Array

Kit Yan Chan; Ronald B. Hirshl; James B. Grotberg; Robert H. Bartlett; Hideki Fujioka

Source: Journal of Biomechanical Engineering:;2007:;volume( 129 ):;issue: 005::page 676

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DOI: 10.1115/1.2768105

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The pulsatile blood flow and gas transport of oxygen and carbon dioxide through a cylindrical array of microfibers are numerically simulated. Blood is modeled as a homogeneous Casson fluid, and hemoglobin molecules in blood are assumed to be in local equilibrium with oxygen and carbon dioxide. It is shown that flow pulsatility enhances gas transport and the amount of gas exchange is sensitive to the blood flow field across the fibers. The steady Sherwood number dependence on Reynolds number was shown to have a linear relation consistent with experimental findings. For most cases, an enhancement in gas transport is accompanied with an increase in flow resistance. Maximum local shear stress is provided as a possible indicator of thrombosis, and the computed shear stress is shown to be below the threshold value for thrombosis formation for all cases evaluated.

keyword(s): Flow (Dynamics) , Fluids , Fibers , Blood , Carbon dioxide , Oxygen , Blood flow , Pressure , Reynolds number , Shear (Mechanics) , Electrical resistance AND Cycles ,

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Pulsatile Blood Flow and Gas Exchange Across a Cylindrical Fiber Array

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contributor author	Kit Yan Chan
contributor author	Ronald B. Hirshl
contributor author	James B. Grotberg
contributor author	Robert H. Bartlett
contributor author	Hideki Fujioka
date accessioned	2017-05-09T00:22:42Z
date available	2017-05-09T00:22:42Z
date copyright	October, 2007
date issued	2007
identifier issn	0148-0731
identifier other	JBENDY-26753#676_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/135214
description abstract	The pulsatile blood flow and gas transport of oxygen and carbon dioxide through a cylindrical array of microfibers are numerically simulated. Blood is modeled as a homogeneous Casson fluid, and hemoglobin molecules in blood are assumed to be in local equilibrium with oxygen and carbon dioxide. It is shown that flow pulsatility enhances gas transport and the amount of gas exchange is sensitive to the blood flow field across the fibers. The steady Sherwood number dependence on Reynolds number was shown to have a linear relation consistent with experimental findings. For most cases, an enhancement in gas transport is accompanied with an increase in flow resistance. Maximum local shear stress is provided as a possible indicator of thrombosis, and the computed shear stress is shown to be below the threshold value for thrombosis formation for all cases evaluated.
publisher	The American Society of Mechanical Engineers (ASME)
title	Pulsatile Blood Flow and Gas Exchange Across a Cylindrical Fiber Array
type	Journal Paper
journal volume	129
journal issue	5
journal title	Journal of Biomechanical Engineering
identifier doi	10.1115/1.2768105
journal fristpage	676
journal lastpage	687
identifier eissn	1528-8951
keywords	Flow (Dynamics)
keywords	Fluids
keywords	Fibers
keywords	Blood
keywords	Carbon dioxide
keywords	Oxygen
keywords	Blood flow
keywords	Pressure
keywords	Reynolds number
keywords	Shear (Mechanics)
keywords	Electrical resistance AND Cycles
tree	Journal of Biomechanical Engineering:;2007:;volume( 129 ):;issue: 005
contenttype	Fulltext

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