Abstract
An analysis is made to study the effects of radiation, dissipation, Thermo-diffuso and Diffuso- thermo on MHD 3D Maxwell flow past a stretching permeable sheet with resistive heating. Transforming the governing dimensional boundary layer equations using three dimensional similarity transformations and then the resultant equations are numerically solved by employing Shooting method. The effect of the pertinent parameters on various flow distributions is elaborately discussed with the help of graphs and tables. The comparison of present results with the existing literature gave an excellent agreement for the reduced cases.
Highlights
The flow of non-Newtonian fluids received the attention of global investigators by its special, unique behaviour and novel applications
Numerous works found on Maxwell fluid past different geometries [2,3,4,5]
Non-Newtonian fluids with Magnetohydrodynamic along extending sheet have its enormous applications in nuclear reactors, plasma studies, polymer extraction
Summary
The flow of non-Newtonian fluids received the attention of global investigators by its special, unique behaviour and novel applications. Palani et al [6] investigated the chemical reaction effect on unsteady MHD flow of an UCM fluid past stretching sheet. Kumari and Nath [10] investigated the mixed convection flow of Maxwell fluid past an exponential stretching vertical surface with MHD and dissipation. Bhaskar Reddy et al [11] analysed the radiative heat transfer on MHD slip flow of dissipating Nano fluid over an exponential porous stretching sheet. Hayat et al.[13] presented the Soret and Dufour effects in three dimensional flow of Maxwell fluid in the presence of convective condition and chemical reaction. Yu. Bai [14] presented the numerical analysis of fractional MHD Maxwell fluid with the effect of convective heat transfer condition and dissipation
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