Computational Analysis of MHD Nonlinear Radiation Casson Hybrid Nanofluid Flow at Vertical Stretching Sheet

The stagnation point flow of unsteady compressible Casson hybrid nanofluid over a vertical stretching sheet was analyzed. comparative study Yamada Ota, Tiwari Das, and Xue models performed. Lorentz force applied normal to directions. effect nonlinear radiation studied. We considered the SWCNT (signal wall carbon nanotube) MWCNT (multi-wall with base liquid (water). Under suppositions, mathematical model settled by means boundary layer approximations in terms partial differential equations. suitable transformation developed using lie symmetry method. Partial equations were transformed into ordinary transformations. dimensionless system elucidated through numerical technique named bvp4c. impacts pertinent parameters on skin friction, Nusselt number, temperature velocity distributions depicted tabular form as well graphical form. In this study, Ota achieved higher heat transfer rate compared Das models. friction (CfxRe−1/2) increased gradient (NuxRe−1/2) declined due increment solid nanoparticle concentration (ϕ2). Physically, because values nanoparticles resistance fluid motion.