Modeling and Simulation of Blood Flow through an Inclined Artery with a Tapered Angle
Keywords:
Chemical reaction, Magnetic field, Tapered angle, MHD, Inclined artery, Blood, Modeling, Simulation, FlowAbstract
The modeling and simulation of blood flow through an inclined artery with a tapering angle is the primary focus of this study. A mathematical model is developed to capture the dynamics of blood flow in this specific geometry. The dependable Homotopy perturbation method is employed to solve the governing equations, and the results are visually presented and analyzed. The study includes a comprehensive problem formulation, a solution strategy, graphical representation of simulated results, a quantitative examination of control parameters, and a summary of key conclusions. This research contributes to a better understanding of blood flow behavior in arteries with inclined and tapered geometries, which has implications for cardiovascular health and medical interventions.
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