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Asymmetric flows of non-Newtonian fluids in symmetric stenosed artery  

Hun Jung (Graduate School, Department of Mechanical Engineering, Chonnam National University)
Park, Jong-Wook (School of Mechanical and Automotive Engineering, Sunchon National University)
Park, Chan-Guk (Department of Mechanical Engineering, Chonnam National University)
Publication Information
Korea-Australia Rheology Journal / v.16, no.2, 2004 , pp. 101-108 More about this Journal
Abstract
The hemodynamics behavior of the blood flow is influenced by the presence of the arterial stenosis. If the stenosis is present in an artery, normal blood flow is disturbed. In the present study, the characteristics of pulsatile flow in the blood vessel with stenosis are investigated by the finite volume method. For the validation of numerical model, the computation results are compared with the experimental ones of Ojha et al. in the case of 45% stenosis with a trapezoidal profile. Comparisons between the measured and the computed velocity profiles are favorable to our solutions. Finally, the effects of stenosis severity and wall shear stress are discussed in the present computational analysis. It can be seen, where the non-dimensional peak velocity is displayed for all the stenosis models at a given severity of stenosis, that it is exponentially increased. Although the stenosis and the boundary conditions are all symmetric, the asymmetric flow can be detected in the more than 57% stenosis. The instability by a three-dimensional symmetry-breaking leads to the asymmetric separation and the intense swirling motion downstream of the stenosis.
Keywords
stenosis; wall shear stress; non-Newtonian fluid; numerical analysis; physiological flow; instability flow;
Citations & Related Records

Times Cited By Web Of Science : 19  (Related Records In Web of Science)
Times Cited By SCOPUS : 28
연도 인용수 순위
1 Asymmetric flows and instabilities in symmetric ducts with sudden expansion /
[ Chendron,W.;F.Durst(et al.) ] / J. Fluid Mech.   DOI   ScienceOn
2 A scaling law for wall shear rate through an arterial stenosis /
[ John,M.Siegel;C.P.Markou(et al.) ] / Journal of Biomechanical Engineering Transactions ASME   DOI   ScienceOn
3 Numerical study on the unsteady flow of non-Newtonian fluid /
[ Nakamura,M.;T.Sawada ] / Journal of biomechanical Engineering
4 Nonlinear flow phenomena in a symmetric sudden expansion /
[ Fearn,R.M.;T.Mullin ] / J. Fluid Mech.   DOI
5 Blood flow in small tube /
[ Shu Chien;S.Usami(et al.) ] / American Physiology Society Handbook of Physiological Section, the cardiovascular system
6 A study of non-Newtonian aspects of blood flow through stenosed arteries and its applications in arterial disease /
[ Chaturani,P.;R.P.Samy ] / Biorheology
7 Pulsatile flow through constricted tubes: an experimental investigation /
[ Ojha,M.;R.S.C.Cobbold(et al.) ] / J. Fluid Mech.   DOI
8 /
[ Fung,Y.C. ] / Biodynamics: Circulation
9 Modelling of flow and wall behaviour a mildly stenosed tube /
[ Lee,K.W.;X.Y.Xu ] / Med. Eng. & Phy.   DOI   ScienceOn
10 An analytical estimate of the flow-field in a porous stenotic artery subject to body acceleration /
[ Santabrata Chakravarty;Ashis Kr. Sannigrahi ] / Internal Journal of Engineering Science   DOI   ScienceOn
11 A non-Newtonian fluid model for blood flow through arteries under stenotic conditions /
[ Misra,J.C.;M.K.Patra(et al.) ] / Journal of Biomechanics   DOI
12 The effect of unsteadiness on the flow through stenoses and bifurcations /
[ Siouffi,M.;R.Farahifar,D.(et al.) ] / J. Biomechanics   DOI   ScienceOn
13 Effect of non-Newtonian property of blood on flow through a stenosed tube /
[ Takuji,I.;Luis F.R.Guimaraes(et al.) ] / F. Dyn. Res.   DOI   ScienceOn
14 Effect of stenotic geometry on flow behaviour across stenotic models /
[ Solzbach,U.;A.Zeiher(et al.) ] / J. Biomechanics
15 Rheology of concentrated disperse systems. Ⅲ. General features of the proposed non-Newtonian model. Comparison with experimental data /
[ Quemada,D. ] / Rheol. Acta
16 Wall stress and strain analysis using a three-dimensional thick-wall model with fluid-structure interactions for blood flow in carotid arteries with stenoses /
[ Tang,D.;C.Yang;Y.Huang;D.N.Ku ] / Computers and Structures   DOI
17 Characterization and evolution of poststenotic flow disturbances /
[ Khalifa,A.M.A.;D.P.Giddens ] / J. Biomechanics
18 Flow through a converging-diverging tube and its implications in occlusive vascular disease /
[ Forrest,J.H.;D.F.Young ] / Journal of Biomechanics   DOI   ScienceOn
19 /
[ Nagatomo,M.;B.R.Shin;T.Ikohangi;H.Daiguji ] / Proc. 5th CFD symp.
20 Pulsatile flow of Cassons fluid through stenosed arteries with applications to blood flow /
[ Chaturani,P.;R.P.Samy ] / Biorheology
21 Instability in three-dimensional, unsteady, stenotic flows /
[ Francois,M.;D.Dimitris ] / Int. J. Heat and Fluid Flow
22 /
[ Patankar,S.V. ] / Numerical Heat Transfer and Fluid Flow
23 Influence of stenosis morphology on flow through severely stenotic vessels: implications for plaque rupture /
[ Stroud,J.S.;S.A.Berger(et al.) ] / J. Bio.   DOI   ScienceOn
24 Study of bifurcation flow phenomena in incompressible sudden-expansion flows /
[ Drikakis,D. ] / Phy. Fluids   DOI   ScienceOn
25 Numerical study on the flow of a non-Newtonian fluid through an axisymmetric stonesis /
[ Nakamura,M.;T.Sawada ] / Journal of biomechanical Engineering   DOI   ScienceOn