Significance of Hall effect on heat and mass transport of titanium alloy-water-based nanofluid flow past a vertical surface with IMF effect |
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| Authors: | Jitendra Kumar Singh Suneetha Kolasani Vishwanath Savanur |
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| Affiliation: | 1. Department of Mathematics, Vijayanagara Sri Krishnadevaraya University, Ballari, Karnataka, India;2. Department of Mathematics, Vijayanagara Sri Krishnadevaraya University, Ballari, Karnataka, India
Department of Mathematics, Ballari Institute of Technology and Management, Ballari, Karnataka, India |
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| Abstract: | In this mathematical presentation, we examined the significance of Hall current on MHD buoyancy-driven boundary layer flow of a Ti6Al4V-H2O based nanofluid past a vertical surface implanted in a uniform permeable region. The vertical surface is considered to be magnetized and induced magnetic field (IMF) impacts are also considered. The nondimensional flow model is solved with the assistance of the two-term perturbation scheme. Various results are obtained by numerical computation for different significant parameters. These results are presented and analyzed in graphical and tabular form. In the boundary layer domain, the transpiration velocity across the surface tends to diminish the main flow, IMF along the main flow, fluid temperature, and concentration. It is remarkably noted that IMF along the main flow grows for incrementing values of volume fraction coefficient of nanofluid. In the magnetic boundary layer domain, the main flow and IMF along the main flow grow with Hall current. Furthermore, it is seen that for the progressing values of magnetic Prandtl number, the main flow reduces while normal flow and IMF along the main flow is induced in the boundary layer domain. |
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| Keywords: | Hall effect induced magnetic field (IMF) effect magnetized surface nanofluid transpiration velocity |
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