Abstract
Radiative effect has appealed consideration of investigators since radiative effect has numerous uses in engineering and industry. Specific uses encompass glass production, polymer processing, solar power, gas cooled, satellites, nuclear reactors and space technology. Keeping the above-mentioned practicality in perspective, here nonlinear convected non-Newtonian (Eyring–Powell) material flow subjected to radiative effect is described. Double stratification, chemical reaction and Robin’s type condition are accounted for modeling. Boundary-layer idea yields nonlinear governing expressions which are transfigured to ordinary differential equations via transformation procedure. Significant aspects of dimensionless factors are inspected via graphical description. We witnessed lower thermal and solutal fields subjected to stratification factors (thermal and solutal stratification).
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