Abstract
Heat transfer investigation in the nanofluids is significant for real world applications. The investigation of heat transfer over a stretchable magnetized surface has broad applications in various industries. Therefore, heat transfer featuring in the nanofluid synthesized by various shaped Cu and H2O is organized over a shrinking surface. The problem is organized properly via similarity equations by inducing the influences of magnetic field. Then, OVIM is adopted and performed the solutions for the particular model. The results are furnished for the governing quantities over the feasible region and deeply discussed in the view of their physical significance. It is examined that the nanoliquids angular motion and shear stresses drops by strengthen magnetic field effects. Moreover, nanoliquid containing brick Cu-particles is better heat conductor and could be used broadly for industrial applications as for as heat transport concerned. In end, authentication of the study is provided by comparing the results with previous science literature and an excellent agreement is seems between them.
Highlights
Investigation of mass and thermal transport models over stretching or shrinking boundaries of different geometries has versatile range of applications in various technological processes
The earlier work on three-dimensional rotating flow convinced by a stretching surface was reported by Wang [1]. They explored a flow model by considering a very fascinating parameter λ that manifestoes the ratio between revolutions to stretching rate of the surface
They investigated the series solution of the flow model by employing regular perturbation technique for smaller values of parameter λ. They inspected that velocity field above the stretching surface starts decreasing by increasing parameter λ
Summary
Investigation of mass and thermal transport models over stretching or shrinking boundaries of different geometries has versatile range of applications in various technological processes. Sheikholeslami et al [6, 7] explored an MHD flow of viscous incompressible fluid and thermal transport analysis bounded by two plates in revolting the Cartesian coordinate system They ignored the influences of dissipative phenomena on the flow field. Sheikholeslami et al [14] studied the influences of thermal radiations on MHD nanofluid flow by using two phase model They portrayed the effects of multiple physical quantities on nondimensional flow characteristics. Some important and novel analysis of nanofluid flow by taking various physical phenomena like solar thermal radiations, combined effects, dissipation fluid, resistive heating, and Lorentz forces are examined in [16,17,18,19]. Some other recent studies of potential interest are examined in [33,34,35]
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