This research looked at the effects of thermal radiation and Brownian motion on mixed convection heat mass transfer nanofluid over a porous plate in Darcy-Forchheimer flow. The controlling partial differential equations are converted to ordinary numerically solved by using Runge-Kutta fourth-order alongside shooting approach. Different physical parameters’ temperature, velocity, concentration distribution studied. In addition, results also graphically represented. reduced local Nusselt number Sherwood shown compared previous investigations; comparisons extremely close. According results, rate is lowered 63.83% when parameter increased from 0.2 1 (in case suction) 83.31% injection). Also, suction, thermophoresis parameters it 50.48%, injection, was 65.08%.

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