Heat Transfer Analysis of Silver-water Nanofluid Flow over Stretching Cylinder Subjected to Multiple Convective Conditions over Stretching Sheet and Stretching Cylinder

Tiny particles are essential in electronics, heat exchangers, nanotechnology, and materials science because of their exceptional thermal conductivity unique properties. The study investigate the MHD flow over a stretching cylinder containing silver-water nanofluid presence magnetic field under multiple convective boundary conditions sheet cylinder. A system PDEs is reduced to solvable ODEs by applying suitable similarity transformation. We employ Runga Kutta method along with shooting procedure solve flow, heat, mass transfer equations conditions. results obtained from MATLAB codes compared previously published same nature limiting case. In this model, we made comparison between flat those represented via graphically. Numerical skin-friction coefficient local Nusselt systematized form tables for plots illustrate effect different dimensionless parameters on velocity, temperature, concentration profiles. Significant role Biot number temperature profile was observed. increases Bi Pr but decreases M. skin friction enhanced M decrease \(\lambda\)