Optimization of bypass graft using FSI numerical method
conference contribution
posted on 2012-01-01, 00:00authored byH Do, Subrat DasSubrat Das, A Owida, K Yousif, Y Morsi
It is well documented in literature that the coronary artery bypass graft is normally fail after a short period of time, due to the development of plaque known as intimal hyperplasia within the graft. Various in vivo and in vitro studies have linked the development of intimal hyperplasia to the abnormal hemodynamics and compliance mismatch. Therefore, it is essential to fully understand the relationship between the hemodynamics inside the coronary artery bypass and its mechanical and geometrical characteristics under the correct physiological conditions. In this work, hemodynamic of the bypass graft is studied numerically. The effect of the host and graft diameters ratio, the angle of anastomosis and the graft configuration on the local flow patterns and the distribution of wall shear stress are examined. The pulsatile waveforms boundary conditions are adopted from in vivo measurement data to study the hemodynamics of composite grafts namely Consequence and Y grafting in terms temporal and spatial distributions of the blood flows. Moreover, various non-Newtonian and Newtonian models of blood have been carried out to examine the numerical simulation of blood flow in stenosis artery. The results are presented and discussed for various operating conditions.
History
Event
International Science & Technology. Conference (3rd : 2012 : Dubai, United Arab Emirates)
Pagination
893 - 902
Publisher
ISTEC
Location
Dubai, United Arab Emirates
Place of publication
[Dubai, UAE]
Start date
2012-12-13
End date
2012-12-15
Language
eng
Publication classification
E2 Full written paper - non-refereed / Abstract reviewed
Editor/Contributor(s)
A Isman, S Dundar
Title of proceedings
ISTEC 2012 : Proceedings of the 3rd International Science & Technology Conference