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The Velocity Slip Boundary Condition Effects on Non-Newtonian Ferrofluid over a Stretching Sheet

Author

Listed:
  • Hussan Zeb
  • Hafiz Abdul Wahab
  • Umar Khan
  • Amnah S.Al Juhani
  • Mulugeta Andualem
  • Ilyas Khan
  • Ahmed Zeeshan

Abstract

In this work, radioactive heat transfer analysis in non-Newtonian Ferrofluid over a stretchable sheet is considered. Furthermore, the effects of Arrhenius activation energy, magnetic dipole, velocity slip, and mass convective boundary condition are taken into account. The governing model is transformed into coupled ordinary equations (ODEs) via a similarity transformation. The solution of these resulting ODEs systems are computed by Runge–Kutta method (RK-45). The influence of beneficial physical parameters on momentum, pressure, energy, and concentration profiles are presented. The major finding of this study is the variation of the velocity field is reduced for the higher values of velocity slip parameters A1 and β2 and fluid material parameter H. The temperature field increases for higher values of Rd and decreases for Pr. Here we concluded that, the increasing or decreasing of the concentration, temperature, and velocity field for various physical parameters can be seen in the result and discussion section in detail. The physical quantities such as skin friction, Nusselt, and Sherwood numbers are examined.

Suggested Citation

  • Hussan Zeb & Hafiz Abdul Wahab & Umar Khan & Amnah S.Al Juhani & Mulugeta Andualem & Ilyas Khan & Ahmed Zeeshan, 2022. "The Velocity Slip Boundary Condition Effects on Non-Newtonian Ferrofluid over a Stretching Sheet," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-20, May.
    • Handle: RePEc:hin:jnlmpe:1243333
    DOI: 10.1155/2022/1243333
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