Abstract
ABSTRACT The peristaltic blood flow of hybrid nanoparticles due to tapered complex wavy channels like veins and arteries has been inspected in the presence of Hall features. The analysis is performed in view of novel curvature and magnetic force aspects. The flow is induced by a non-uniform curved channel. The mathematical modeling of the problem is based on fundamental laws. The hybrid nanoparticle’s characteristics are signified to predict the heat transfer enhancement. The analytical simulations are performed by using the ND-solve technique. Finally, a detailed graphical analysis will be presented for the involved parameters. The graphical simulations are worked out for the velocity, heat transfer rate, and wall shear force. Moreover, the streamline is plotted to represent the flow path and motion of particles.
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