Malaysian Journal of Mathematical Sciences, May 2017, Vol. 11, No. 2
Finite Element Simulation of Blood Flow Through an Artery Bifurcation: A Mathematical Model
Rajashekhar, C., Manjunatha, G., and Fabian, B.
Corresponding Email: manjunatha.g@manipal.edu
Received date: 29 September 2016
Accepted date: 3 March 2017
Abstract:
A mathematical model for the flow of human blood through an artery bifurcation is studied using finite element analysis (FEA). The FEA has
been applied for a two-dimensional steady flow of an in-viscous fluid through different geometries. The flow through a two-dimensional model of a carotid artery bifurcation has been simulated. The velocity profiles through the bifurcation branches were computed. The validity of the computational method was established by comparing the numerical results with other findings.
Keywords: Pulsatile, Carotid artery, Bifurcation
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