Computational analysis of heat transfer with micro polar hybrid nanofluid

Abstract

The article studies the heat transfer of the micro-polar hybrid nanofluid computationally as the boundary layer flow with reference to the pertinent parameters. The hybrid micro-polar nanofluid are analyzed for its effect related to the parameters like Prandtl number, rotation parameter, magnetic field parameter, thermal radiation, skin friction coefficient, Reynolds number, Nusselt number to depict the velocity and micro-rotation profile distribution.. The set of governing equations are converted to the differential form by the similarity transformations and solved for the numerical values by shooting algorithm. The convective flow with the micro-polar hybrid nanofluid in the porous medium with the similarity transformations and non dimensional equations with the boundary equations gives the required result for the analysis. The coefficient of skin friction and rate of heat transport increases with the increase in the magnetic parameter. The fluid flow with the suction/injection parameter is also considered. The analysis of this study includes the results with reference to the heat generation. Interpretation of the result in the form of graph and tables shows that it enhances the heat transfer rate and the parameter like Nusslet number and the coefficient of skin friction are analyzed. The computational values are compared with the existing values and higher accuracy is established. The concluding remark of the article is to analyse the behaviour of velocity and micro-rotation profile with reference to various parameters taken for study.