Effects of thermal and solutal stratiÞcation on Jeffrey magneto-nanoßuid along an inclined stretching cylinder with thermal radiation and heat generation/absorption

Abstract

A mathematical model is established to discuss the flow of magneto Jeffrey nanofluid with heat generation/absorption and thermal radiation past an inclined stretched cylinder. Effects of thermal and concentration stratification are also taken into account. Analytical solution of the problem is obtained using Homotopy analysis method. Graphical illustrations depicting effects of prominent arising parameters on involved profiles with requisite discussion are also presented. Further, numerical data representing Skin friction, heat and mass transfer rates are also given in the form of table. A comparison in limiting case to previous study is also added to verify our results. It is found that temperature and concentration distributions are decreasing functions of thermal and solutal stratification parameters respectively.