Numerical Computation of Ag/Al2O3 Nanofluid over a Riga Plate with Heat Sink/Source and Non-Fourier Heat Flux Model

The main goal of the current research is to investigate numerical computation Ag/Al2O3 nanofluid over a Riga plate with injection/suction. energy equation formulated using Cattaneo–Christov heat flux, non-linear thermal radiation, and sink/source. leading equations are non-dimensionalized by employing suitable transformations, results achieved MATLAB bvp4c technique. fluctuations fluid flow transfer on porosity, Forchheimer number, suction/injection, velocity slip, nanoparticle volume fraction investigated. Furthermore, local skin friction coefficient (SFC), Nusselt number (LNN) also addressed. Compared previously reported studies, our computational exactly coincided outcomes previous reports. We noticed that factors slow profile. noted improving rates radiation convective heating, gradient decreases. 40% presence Hartmann leads improved drag force 14% 0.5%. 20% decrement in for 21% Ag nanoparticles 18% Al2O3 nanoparticles.