THREE DIMENSIONAL HYBRID NANOFLUID ALONG A STRETCHING/SHRINKING SHEET: APPLICATION OF Al_2 O_3-Cu

Authors

  • Sahin Ahmed Department of Mathematics, Rajiv Gandhi University, Rono Hills, Itanagar, Arunachal Pradesh
  • Kirnu Badak Department of Mechanical Engineering, NIT Arunachal, Jote, Papumpare, Arunachal Pradesh-791113, India
  • R. P. Sharma Department of Mechanical Engineering, NIT Arunachal, Jote, Papumpare, Arunachal Pradesh-791113, India

DOI:

https://doi.org/10.52292/j.laar.2024.3135

Keywords:

Hybrid nanofluid, Stretching/Shrinking sheet, Slip condition, Convective condition, MHD

Abstract

Hybrid nanofluid offers advance level of heat transportation in various areas of engineering and industries like in cooling/heating of electronic devices, heat exchanger, etc. In this study, three-dimension flow field of hybrid nanofluid in a convective stretching and shrinking surface with the application Lorentz drag force and slip condition is investigated numerically. Flow model of non-linear governing equations have been reframed to a set of ordinary differential equations via dimensionless similarity transformation and then solved numerically by bvp4c Matlab software. Physical characteristic of proposed model is elaborated through graphs and tables with physical parameters. Moreover, increment magnetic parameter, slip parameter and suction parameter decreases with velocity profile while Biot number increases with temperature.

Published

2024-03-11

Issue

Section

Heat and Mass Transfer