Electro-Blood Circulation Fusing Gold and Alumina Nanoparticles in a Diverging Fatty Artery

Emerging bio-microfluidic systems are embracing electroosmosis mechanisms to supervise ionised physiological fluids. Impelled by the exploration of electro-micro-pumping in bio-engineering domains, present inquisition, a research policy associated with hemodynamical deportment blood circulation under suspension gold and alumina nanoparticles diverging fatty artery subject electro-osmotic driving forces is conducted. The exact solutions resulting model equations proposed wall conditions acquired terms Bessel functions larger wavelength smaller ratio inertial viscous force. Numerical integration computed through NDSolve technique. Plotting elaboration performed explore physical insight into hemodynamics diverse parametric aspects. Crucial findings study include that raised parameter elevates intensity streaming core zone it established declining pattern close vicinity arterial wall. parameters linked contribute thermal emaciation artery. heat transmission rate across sharply declines for ascending values Helmholtz-Smoluchowski velocity. structure boluses also outlined impact involved brief. Pure offers less size number near compared hybrid nano-blood. From point view, modelling can significantly biomechanical medical processes therapeutic implications.