Chemical reaction impact in dual diffusive non-Newtonian liquid featuring variable fluid thermo-solutal attributes

Abstract

This study focusses on two-dimensional rate type Maxwell material flow configured by a vertical moving surface. Heat source/sink and variable conductivity attributes are included in energy expression. Mass transport analysis is scrutinized through variable diffusivity and chemical reaction. Thermo-solutal buoyancy forces are introduced to capture mixed convection effects. The fundamental laws of fluid mechanics are utilized to model the problem. The implementation of order ensued in PDEs of governed physical problem. Apposite transformations are introduced to transfigure these PDEs into ordinary differential expressions. Computations of significant physical quantities are achieved through homotopy scheme. The convergence is ensured through tabular and graphical outcomes. The description of sundry variables is elucidated via pictorial forms.