Downloads: 0 | Views: 66
Research Paper | Applied Sciences | India | Volume 13 Issue 7, July 2024 | Rating: 4.6 / 10
Mathematical and Computational Analysis of Blood Flow Dynamics in a Tapered Stenosed Artery with Nanoparticle Suspension: Implications for Diagnostic and Therapeutic Applications
Saif Abbas
Abstract: This study addresses the heat and mass transfer characteristics of blood flow through a tapered, stenosed artery, utilizing the Homotopy Perturbation Method. The blood's flow behavior is described using the Jeffrey fluid model, and the equations governing the flow are formulated in cylindrical coordinates. Analytical solutions for velocity, temperature, concentration, and flux are derived by solving the nonlinear coupled equations. The influence of varying thermophoresis and Brownian motion parameters on the velocity, temperature, concentration, and flux profiles is examined. MATLAB is employed to present the computational results graphically. The study highlights the advantages of this model over existing ones by comparing its results, both analytically and numerically, with other theoretical approaches.
Keywords: Velocity Profile, Temperature Profile, Concentration Profile, Flux Profile, Thermophoresis, Brownian Motion, Rheology of Blood, Flow Dynamics, Stenosis Effects
Edition: Volume 13 Issue 7, July 2024
Pages: 528 - 533