Influence of inclined magnetic field on the flow of condensed nanomaterial over a slippery surface: the hybrid visualization

Nanofluids are of great interest for its inflated heat transport rate. A novel conviction of hybrid nanosuspension with an enhanced model under inclined magnetic field along with its thermophysical properties is analyzed in this work. Surface slip plus permeable texture of the sheet aid us to have excellent points of the flow. The prime equations are renewed to ODE with the assistance of similarity transportation and subsequently solved numerically. A hybrid nanofluid with Ag and CuO nanoparticles as well as CuO for usual nanofluid with base fluid water are taken to explore salient attribute and parameters. Several graphs, streamlines, and contour plots are presented to convey the impact of inclined magnetism of hybrid condensed structure of the flow. Reduced frictional coefficient and heat transports are calculated and reviewed. This investigation shows that heat transport rate of hybrid nanofluid is better than nanofluid under inclined magnetic field and for suitable angle of inclination. Temperature amplifies owing to magnetic parameter, injection, and magnetic field inclination, whereas reverse is true for suction. The novel outcomes of this investigation will advance the field of condensed nanostructure and nanomaterials.