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Titolo: A NONLINEAR 2DIMENSIONAL MODEL OF BLOODFLOW IN AN OVERLAPPING ARTERIALSTENOSIS SUBJECTED TO BODY ACCELERATION
Autore: CHAKRAVARTY S; MANDAL PK;
 Indirizzi:
 VISVA BHARATI UNIV,DEPT MATH SANTINIKETAN 731235 W BENGAL INDIA
 Titolo Testata:
 Mathematical and computer modelling
fascicolo: 1,
volume: 24,
anno: 1996,
pagine: 43  58
 SICI:
 08957177(1996)24:1<43:AN2MOB>2.0.ZU;20
 Fonte:
 ISI
 Lingua:
 ENG
 Soggetto:
 FLUID;
 Keywords:
 NONLINEAR; OVERLAPPING STENOSIS; BODY ACCELERATION; SINGLE CARDIAC CYCLE; ATHEROMA;
 Tipo documento:
 Article
 Natura:
 Periodico
 Settore Disciplinare:
 CompuMath Citation Index
 Science Citation Index Expanded
 Science Citation Index Expanded
 Science Citation Index Expanded
 Citazioni:
 23
 Recensione:
 Indirizzi per estratti:



 Citazione:
 S. Chakravarty e P.K. Mandal, "A NONLINEAR 2DIMENSIONAL MODEL OF BLOODFLOW IN AN OVERLAPPING ARTERIALSTENOSIS SUBJECTED TO BODY ACCELERATION", Mathematical and computer modelling, 24(1), 1996, pp. 4358
Abstract
This paper presents a theoretical study on the nonlinear behaviour ofblood flow over a single cardiac cycle through an arterial segment having an overlapping stenosis when it is subjected to whole body acceleration. An improved shape of the timevariant stenosis in the realm ofthe formation of the arterial narrowing caused by atheroma is constructed mathematically in order to update resemblance to the invivo situation. The artery has been treated as an elastic (moving wall) cylindrical tube containing a Newtonian fluid representing the flowing blood. The nonlinear terms appearing in the NavierStokes equations governing blood flow are accounted for. The unsteady Bow mechanism in the stenosed artery subject to pulsatile pressure gradient arising from the normal functioning of the heart and the body acceleration is presented mathematically. The present analytical treatment bears the potential tocalculate the axial and the radial velocity profiles with low computational complexity by exploiting the appropriate boundary conditions. Athorough quantitative analysis is performed through numerical computations of the desired quantities. Results are presented graphically at the end of the paper. They yield an estimate of the effects of the body acceleration, the pressure gradient, the vessel wall deformability and the severity of the stenosis on the unsteady flow characteristics of blood. Some important conclusions are drawn that sufficiently substantiate the applicability of the present model.
ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 19/01/21 alle ore 06:11:45