Nonlinear convection and joule heating impacts in magneto-thixotropic nanofluid stratified flow by convectively heated variable thicked surface

Abstract The modeling of magnetohydrodynamic (MHD) nonlinear convected flow of thixotropic non-Newtonian material is carried out in this piece of research. The aspects of Joule dissipation, heat generation and thermal radiation are considered to analyze the heat transportation analysis. The combination of stratified and convective conditions phenomenon is accounted first time. The model non-dimensional quantities are calculated with the help of optimal homotopy procedure. The optimal values of non-zero auxiliary constraints are calculated and visualized. We observed that the increasing values of radiation, Eckert and Biot numbers lead to higher profile of temperature and stronger thickness of temperature boundary-layer. Further, presence of thermophoretic and Brownian movement factors have opposite nature for nanomaterials concentration.

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