Hybrid Carbon Nanotube Flow near the Stagnation Region over a Permeable Vertical Plate with Heat Generation/Absorption

This research explored the mixed convection flow past a vertical plate immersed in hybrid carbon nanotube near stagnation point. The was synthesized by mixture of two nanoparticles, namely multi-wall (MWCNT) and single-wall (SWCNT) nanotubes water (base fluid). In addition, attractive aspects suction/injection heat generation/absorption effects were incorporated. Similarity variables used to convert partial differential equations describing fluid into ordinary (similarity) before being solved numerically using Matlab software. simultaneous impact several parameters on velocity temperature profiles, skin friction coefficient, local Nusselt number represented with graphs. Dual solutions observed for some pertinent parameters, which led stability analysis. analysis interpreted that merely first numerical solution is stable. nanoparticle, injection effect, heat-generation decreased range solutions, whilst suction effect heat-absorption acted opposite manner. Besides, it noted rate transfer higher when compared fluid. Additionally, absorption buoyancy-assisting magnified rate.