Abstract
This research communicates the applications of thermos-diffusion effect associated to the squeezing flow of Jeffrey nanofluid due to horizontal channel. The problem presents the applications of inertial effects by following the Darcy–Forchheimer flow. Moreover, the effects of viscous dissipation and activation energy phenomenon has been discussed. The dimensionless attention of problem is retained. The shooting technique is implemented to present the numerical computations. The numerical validation of results is reported. The essential assessment of physical flow parameters is studied. The numerical outcomes are presented for heat and mass transfer phenomenon. It is observed that presence of inertial forces control to velocity flow in the regime. The enhancing contribution of thermal and concentration rate is noted for inertial constant.
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•The squeezing flow of Jeffrey nanofluid with applications of Darcy–Forchheimer phenomenon is studied due to horizontal Channel.•The heat transfer analysis is reported in presence of viscous dissipation.•The variable chemical reaction effects are considered.•The numerical outcomes are presented.