Abstract
The emerging attention in nano-technology and thermal engineering has led to the concept of nanoparticles with improved theoretical mechanisms and accomplished influenced innovative usages in cooling and heating conveniences, air conditioning arrangements, heat carrying systems, bio-medical applications such as cancer cure, micromechanics, solar energy, artificial heart surgery etc. Currently, peristaltic movements joined with non-Newtonian fluids have enlarged innumerable devotion due to their enormous applications in physical, medical, engineering processes and medical. Eyring - Powell is unique type of non-Newtonian model consequential commencing the theory of motion of fluids. This research work inspects the 3D steady magnetohydrodynamic flow (MHD) containing microorganisms of a Powell-Eyring nanofluid with double stratification over a bidirectional stretched surface. Furthermore, the characteristics of the heat transfer phenomenon are prescribed out by means of thermal radiation. For changing nonlinear PDEs to nonlinear ODEs, we use the appropriate transformations and then numerically solve them with the help of bvp4c procedures. The possessions of several parameters modulating the heat and mass transfer properties are graphically depicted and illustrated in particular. It is interesting to perceived that the temperature field deteriorates for established estimates of the stretching parameter and the Prandtl number. The microorganism as well as concentration field improve for increasing estimates of magnetic parameter and the Biot number.
Published Version
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