Numerical study based on CVFEM for nanofluid radiation and magnetized natural convected heat transportation

Authors

Puneet Rana, Wenzhou-Kean University
S. A. Shehzad, COMSATS University Islamabad, Sahiwal Campus
T. Ambreen, Kyungpook National University
Mahmoud M. Selim, Prince Sattam Bin Abdulaziz University

Document Type

Article

Publication Date

7-15-2021

Abstract

In this manuscript, steady naturally convected nanofluid flow involving thermal radiation has been simulated by involving the inclined magnetic field. Aluminum-oxide nanoparticles are submerged into ordinary electrically conducting H2O. Radiative phenomenon along with distinct nanoparticles shapes is executed. The problem is formulated with the help of basic principles of fluid mechanics and the code is designed for achieving problem solutions. The nature of radiated constraint, Rayleigh number, nanoparticles' shape and magnetic field on nanofluid is labeled and discussed for distinct important quantities. Results revealed that the conduction process is significant mode of heat transportation for higher Darcy factor. The magnetic field utilization obstructs the flow circulation stimulated by the temperature gradient induced buoyancy force.

Publication Title

Journal of Molecular Liquids

DOI

10.1016/j.molliq.2021.116102

Recommended Citation

Rana, Puneet; Shehzad, S. A.; Ambreen, T.; and Selim, Mahmoud M., "Numerical study based on CVFEM for nanofluid radiation and magnetized natural convected heat transportation" (2021). Kean Publications. 944.
https://digitalcommons.kean.edu/keanpublications/944