MHD micropolar nanofluid with non Fourier and non Fick's law

The present study addresses the magnetohydrodynamic micropolar nanofluid past a stretching sheet. All the analysis are carried out by using non-Fourier and non-Fick's models. The effect of viscous dissipation, thermal radiation and Ohmic heating have also been incorporated in the energy equation. After using similarity transformations the modeled PDEs are converted into ODEs and solution is achieved via shooting approach. The solution of these transformed equations is used to obtain the distribution of the heat and mass transfer coefficient over the sheet. The impact of different parameters on dimensionless profiles are analyzed graphically for different range of values. Our simulations depicts that the concentration relaxation parameter declines the energy and the concentration profiles.

Automated summary

This study investigates the magnetohydrodynamic micropolar nanofluid past a stretching sheet using non-Fourier and non-Fick's models, showing the impact of various parameters on dimensionless profiles. The analysis includes viscous dissipation, thermal radiation, and Ohmic heating, with solutions obtained through similarity transformations and shooting approach. The simulations indicate that the concentration relaxation parameter decreases the energy and concentration profiles.