Finite Difference Computation of Au-Cu/Magneto-Bio-Hybrid Nanofluid Flow in an Inclined Uneven Stenosis Artery

The present study addresses the fluid transport behaviour of flow gold (Au)-copper (Cu)/biomagnetic blood hybrid nanofluid in an inclined irregular stenosis artery as a consequence varying viscosity and Lorentz force. nonlinear equations are transformed into dimensionless form by using nonsimilar variables. finite-difference technique (FTCS) is involved computing equations. significant parameters like angle parameter, Hartmann number, changing viscosity, constant heat source, Reynolds nanoparticle volume fraction on field exhibited through figures. Present results disclose that force strongly lessens velocity. Elevating Grashof number values enhances rate flow. Growing parameter cause to reduce resistance impedance wall. Hybrid nanoparticles have superior wall shear stress than copper nanoparticles. transfer amplifying at axial direction with growing concentration. applied significantly reduces unitary direction. expose supreme base fluid. Compared nanofluid, has lower temperature.