Numerical Investigation of Physical Parameters in Cardiac Vessels as a New Medical Support Science for Complex Blood Flow Characteristics

• Published in: Baghdad Science Journal
• Main Author: Defrianto; Saktioto T.; Soerbakti Y.; Thoibah A.; Meyzia B.; Syahputra R.F.; Okfalisa; Syamsudhuha; Irawan D.; Hairi H.
• Format: Article
• Language: English
• Published: University of Baghdad 2023
• Online Access: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85180968494&doi=10.21123%2fbsj.2023.7076&partnerID=40&md5=e356b4fab0a60c57583deccc6eafbaf7

This study proposes a mathematical approach and numerical experiment for a simple solution of cardiac blood flow to the heart's blood vessels. A mathematical model of human blood flow through arterial branches was studied and calculated using the Navier-Stokes partial differential equation with finite element analysis (FEA) approach. Furthermore, FEA is applied to the steady flow of two-dimensional viscous liquids through different geometries. The validity of the computational method is determined by comparing numerical experiments with the results of the analysis of different functions. Numerical analysis showed that the highest blood flow velocity of 1.22 cm/s occurred in the center of the vessel which tends to be laminar and is influenced by a low viscosity factor of 0.0015 Pa.s. In addition, circulation throughout the blood vessels occurs due to high pressure in the heart and the pressure becomes lower when it returns from the blood vessels at the same parameters. Finally, when the viscosity is high, the extreme magnitudes of blood flow tend toward the vessel wall at approximately the same velocity and radius of the gradient. © 2023 University of Baghdad. All rights reserved.