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Significance of Hall current and Ion slip in a three-dimensional Maxwell nanofluid flow over rotating disk with variable characteristics and gyrotactic microorganisms.

Authors :
Ali, Jawad
Ramzan, Muhammad
Saleel, C. Ahamed
Kadry, Seifedine
Saeed, Abdulkafi Mohammed
Source :
Numerical Heat Transfer: Part B -- Fundamentals; 2024, Vol. 85 Issue 5, p587-603, 17p
Publication Year :
2024

Abstract

In varied practical situations, the assumption of constant values are considered for approximations or simplifications to make computations more adaptable. Nevertheless, when there is a requirement for precision, accuracy, and exact results, the consideration of variable characteristics becomes essential. Considering the same, the article's uniqueness lies in studying variable thermal conductivity, variable viscosity, and variable mass diffusivity as governing factors. This study analyzes the movement of a three-dimensional Maxwell nanofluid across a rotating deformable disk deliberating the Hall current and Ion slip impact. In addition, the analysis seeks to boost the stability of the nanofluid flow by incorporating the impact of bio-convection. The velocity slip and convective constraints are enforced at the boundary. The Von Karman transformations are engaged, and accordingly, a numerical solution is computed. Graphical illustrations are used to highlight the significant effects of the problem. The findings revealed that the fluid velocity decreases in both the azimuthal and radial directions for different estimations of the variable viscosity and Deborah number. Additionally, the fluid velocities in the azimuthal and radial directions exhibit opposite trends for Hall current and Ion slip. The endorsement of the presented results is also provided in this study. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10407790
Volume :
85
Issue :
5
Database :
Complementary Index
Journal :
Numerical Heat Transfer: Part B -- Fundamentals
Publication Type :
Academic Journal
Accession number :
176146754
Full Text :
https://doi.org/10.1080/10407790.2023.2252597