Advancement in Mechanical Engineering and Technology (e-ISSN: 2584-251X)

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The primary goal of the study that the numerical simulation of idealized coronary artery healthy and disease models for detecting coronary abnormality by using the combination of computational fluid dynamics (CFD) and computer design 3D computational models. The simulation results enable of coronary blood flow condition in the idealized coronary artery models which are prototypical patient-based coronary artery models that mimic the original patient-specific coronary artery models. The CFD models study helps to find the flow patterns, mean pressure difference, wall shear stress and computational fractional flow reserve (cFFR) to simulate and examine the behavior of fluid. We perform numerical simulations for some idealized models whereas manually generated different sizes of atherosclerotic plaques which take place near bifurcations or bending regions in these computational models. The another aim of this work is to present a comparative study of the idealized healthy, one and two stenoses models for steady and pulsatile blood flow simulations.

Cite as

K. E. Hoque, & M. H. Ali. (2022). The Impact of Hemodynamic Parameters in 3d Idealized Coronary Artery Normal and Disease Models. Advancement in Mechanical Engineering and Technology, 5(1), 1–15. https://doi.org/10.5281/zenodo.6623346