Abstract
The heat transportation features of current liquids are improved via suspension of nano-sized solid elements having diameter (< 100 nm), regarded as potential working liquids to utilize in automobile radiators, electronic chilling systems, solar collectors, heat pipes and nuclear reactors. The present investigation explores the simultaneous impacts of convective conditions, and stratifications in thermally radiated flow of magneto-Jeffrey nanomaterials, nonlinear convection, heat source and Joule heating are taken into account. Implementation of boundary layer theory leads to rheological model of considered problem. The relevant variables have been used to convert PDEs into ODEs. Convergent solutions are achieved through homotopic algorithm, while significance of sundry factors are provided via graphical and tabular data. We have examined reduction in liquid temperature along with concentration subject to higher thermal/concentration stratification factors.