Numerical Study on the Influence of Thermophores and Magnetic Field on the Boundary Layer Flow Over a Moving Surface in a Nanofluid-Reference-Cited by-同舟云学术

Numerical Study on the Influence of Thermophores and Magnetic Field on the Boundary Layer Flow Over a Moving Surface in a Nanofluid

Published:2022-06 Issue: Volume: Page:1-8
ISSN:2583-4622
Container-title:International Journal of Scientific Research and Modern Technology (IJSRMT)
language:en
Short-container-title:International Journal of Scientific Research and Modern Technology (IJSRMT)

Author:

Hussaini A.,Madaki A. G.,Alaramma S.K.,Barde A.,Abdulkadir Tata Adamu

Abstract

For the present research, an attempt was made to study the influence of magnetic field and thermophoresis on an existing mathematical model. The impacts made by both magnetic parameter and thermophoresis over the nanofluids flux as well as the characteristics of transfer of heat are studied and analyzed by using a suitable numerical method (Runge- Kutta- Fehlberg method together with shooting technique) in maple2020. Also the effects of some emerging physical parameters on the profiles of momentum and temperature have been studied and analyzed in tables and graphs. Two solutions are obtainable if the free stream and the plate moves conversely to each other. At the end it was found that the Nusselt number is mostly an increasing function, whereas, the momentum and the temperature fluctuates with different parameters.

Publisher

International Journal of Innovative Science and Research Technology

Reference56 articles.

1. Abdul. G. Madaki, D. G. Yakubu, M. Y. Adamu, R. Roslan (2019). “The study of MHD Nanofluid flow with chemical reaction along with thermophoresis and Brownian motion on boundary layer flow over a linearly stretching sheet”. J. of pure and applied sci 19 (2019) 83 –91

2. A. A. Hussaini, A.G. Madaki, A.M. Kwami (2021). “Modified Mathematical Model on the Study of Convective MHD Nanofluid flow with Heat Generation/Absorption”- Int. J. of Engendering research and technology, 10 (09) :155- 163.

3. A. Zeeshan, M. Baig, R. Ellahi, T. Hayat. (2014) Flow of viscous nanofluid between the concentric cylinders. J. Comput. Theor. Nanosci.; 11:646–54.

4. Andersson HI, Valnes OA. (2009). Flow of a heated ferrofluid over a stretching sheet in the presence of a magnetic dipole. Acta Mech. 1998; 128:39– 47. convection in enclosures filled with Cu-water nanofluid. Int. J. Heat Fluid Flow 30, 669–678

5. Abbasi FM, Shehzad SA, Hayat T, Ahmad B. (2016) Doubly stratified mixed convection flow of Maxwell nanofluid with heat generation/absorption. J. Magn. Magn. Mater.;404: 159–65.