Abstract
This research presents the mass and heat transport phenomenon for 3D flow of Oldroyd-B fluid subject to Soret and the Dufour effects. Additionally, the impact of thermal radiation and magnetic force are also encountered. The bidirectional moving surface is considered to originate the thermally developed flow. The numerical determination of formulated expressions is worked out by following the Runge-Kutta-Fehlberg scheme. The solution validity and ensure is checked. It is shown that the rising estimations of Deborah number for the relaxation time have a positive impact on temperature rate. The growing values of Soret number improves the mass transport, but reverse behavior is obtained for rising thermophoresis parameter. Higher range of radiative variable improves the heat transport rate, but reverse behavior is seen for escalating values of Dufour number.