Abstract
The thermal impact of micropolar nanofluid influenced by viscous dissipation and activation energy has been observed. The porous space due to a stretched surface endorsed the flow. The rheology of micropolar fluid is observed because of micro-rotational effects. The radiated analysis is performed due to thermal radiation impact. The Boungrino nanofluid used presents the Brownian motion and thermophoresis features. The flow system containing nonlinear equations is intended by using the appropriate variables. The numerical computations are suggested by a shooting scheme. The graphical calculation of flow parameters is assessed with physical impacts. The numerical observations for the Nusselt number and wall shear force are focused. It is observed that the velocity profile reduces for material parameters. The concentration phenomenon enhanced for porosity parameters. The lower observations for the Nusselt number are noted for micro-rotational parameters.
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