MHD Hybrid Nanofluid Flow over a Stretching/Shrinking Sheet with Skin Friction: Effects of Radiation and Mass Transpiration

The study of inclined magnetohydrodynamics (MHD) mixed convective incompressible flow a fluid with hybrid nanoparticles containing colloidal combination nanofluids and base is presented in the current research. Al2O3-Cu/H2O nanofluid utilized analysis to enhance heat transfer analysis. impact radiation also placed at energy equation. main research methodology includes that problem provided equations are first transformed into non-dimensional form, then they obtained ordinary differential (ODEs) form. Then using solutions momentum transfers solve given ODEs get root purpose resulting analytically resolved aid suitable boundary conditions. results can be discussed various physical parameters viz., stretched/shrinked-Rayleigh number, stretching/shrinking parameter, Prandtl etc. Besides, skin friction coefficient examined similarity transformations. significance present work explain on basis analytical method. Main findings end we found transverse tangential velocities more for values number mass transpiration both suction injection cases. This special method it contributes major role this finding understand solution