Mathematical Analysis of Blood Microcirculation Through an Overlapping Stenosis under the Influence of Magnetic Field with Hybrid Nanoparticles

Abstract

This study analyses the effect of hybrid nanoparticles on the flow of blood through an artery containing overlapped stenosis along with microcirculation phenomena. Copper and Silver nanoparticles are used with blood as the base fluid. The slip effects along with Newtonian nature of blood are also considered. This analysis is done under the proximity of an external magnetic field. Analytical solutions for velocity, temperature and wall shear stress are obtained. Effects of fluid and flow parameters such as Heat absorption parameter, slip velocity, volume fraction and shape of nanoparticles on velocity and wall shear stress are discussed through graphs. The effect of shape of nanoparticles on fluid velocity in case of hybrid nanoparticles is same as that in case of mono nanoparticles. is same as that This article provides an overview of the model with the solutions and graphs that furnish the researchers and medical practitioners helpful data generating expressions about the use of hybrid nanoparticles in flow through stenosis during microcirculation.