Energy transport analysis in flow of Carreau nanofluid inspired by variable thermal conductivity and zero mass flux conditions

The presence of nanometric particles in the base fluids lead to form nanofluids. Nanofluids are prominent due their astonishing features thermally conducting flows and development electronic mechanical devices. Based on these motivations, we have designed our article investigate thermal conduction free forced convection flow unsteady Carreau nanofluid stretching cylinder with effects variable magnetic field. Moreover, transport energy is properly examined by including impacts conductivity nonuniform heat rise/fall. Furthermore, solutal encountered under influences activation binary chemical reactions. A momentous feature this study employ zero-mass flux condition at wall cylinder. section proposed for mathematical modelling current problem. involved physical constraints explored employing an efficient numerical technique namely bvp4c. all flow, curves illustrated graphs discussed reasonable arguments discussion article. core findings mentioned closing remarks. upshot that nanoparticles concentration rate depicts ascending trend escalating values constraint. significant upsurge coefficients skin friction Nusselt number detected escalation buoyancy thermophoresis forces, respectively. references regarding also provided end.