Assisting and Opposing Stagnation Point Pseudoplastic Nano Liquid Flow towards a Flexible Riga Sheet: A Computational Approach

Nanofluids are used as coolants in heat transport devices like exchangers, radiators, and electronic cooling systems (like a flat plate) because of their improved thermal properties. The preeminent perspective this study is to highlight the influence combined convection on transfer pseudoplastic non-Newtonian nanofluid flow towards an extendable Riga surface. Buongiorno model incorporated present tackle diverse range Reynolds numbers analyze behavior flow. Nanofluid features scrutinized through Brownian motion thermophoresis diffusion. By use boundary layer principle, compact form equations transformed into component forms. modeled system numerically simulated. effects various physical parameters skin friction, mass transfer, energy computed. Fluctuations velocity increased when modified Hartmann number mixed parameter boosted, where it collapses for Weissenberg width parameter. It can be revealed that temperature curve gets down if number, convection, buoyancy ratio upgrade. Concentration patterns diminish there incline Lewis number; other hand, went upward parameter, Hartmann, Prandtl number.