Cross-diffusive flow of MHD micropolar nanofluid past a slip stretching plate.

Heliyon

Key Laboratory of National Education Ministry for Electromagnetic Processing of Materials, POB 314, Northeastern University, Shenyang 110819, China.

Published: March 2024

As a novel fluid of functional material, magnetohydrodynamic (MHD) micropolar fluid has the special properties of light, heat, magnetic and so on. It is of highly practical significance. The characteristics of flow, heat and mass transfer in MHD micropolar nanofluid boundary layer past a stretching plate are investigated based on the micropolar fluid theory in the present numerical work. In the presence of magnetic field, viscous dissipation and the cross-diffusion caused by Dufour effect and Soret effect are considered. First order slip velocity condition is employed. Mathematical models are built based on the assumptions. Collocation spectral method (CSM) via matrix multiplication is adopted to solve the two-dimensional dimensionless nonlinear partial governing equations. The program codes based on CSM is developed, validated and employed. The coupled effects of microrotation, Dufour effect, Soret effect, magnetic field as well as first order slip velocity boundary condition on the flow, heat and mass transfer are revealed. Besides, the variation trends of local Nusselt number and Sherwood number are analyzed in detail. The numerical results indicate that the fluid flow can be suppressed obviously in the consideration of slip condition and magnetic field. As slip parameter and magnetic parameter rise, the velocity in the boundary layer becomes lower gradually; further, both temperature and concentration increase. On the other hand, the opposite trend can be noticed with the effect of material parameter . Moreover, and augment the temperature; while, leads to an upsurge in concentration. The temperature rises by about with Dufour effect and enlarges by a factor of about with Soret effect. The concentration boundary layer decreases by about 37.50% is when .

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10918197PMC
http://dx.doi.org/10.1016/j.heliyon.2024.e26958DOI Listing

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