Abstract
The primary objective of this research is to analyze the influence of cross-diffusion on the behavior of nanofluid flow, which is governed by unsteady hydrodynamics in the existence of a magnetic field. Additionally, this study considers the effects of thermal radiation and heat production. The flow occurs within a porous medium, passing through a vertically oscillating plate. The investigation focuses on two distinct nanofluid formulations, namely silver and titanium dioxide. The concept of similarity transformation is applied to simplify the governing system from partial differential equations (PDEs) to ordinary differential equations (ODEs). To obtain precise expressions for the concentration, temperature, and velocity profiles, Laplace transformation (LT) is utilized. The outcomes of this approximation are presented through graphs generated using MATLAB software. The analysis of these graphs reveals that the existence of external magnetic fields decelerates the momentum of the flow, although this effect is counteracted by the influence of thermal radiation and the heat production parameter.
Recommended Citation
Nanda, Gopal and Patel, Harshad
(2025).
(SI14-02) Analysis of Cross Diffusion Effects on MHD Nanofluid Past an Oscillating Plate with Ramped Wall Temperature,
Applications and Applied Mathematics: An International Journal (AAM), Vol. 20,
Iss.
3, Article 3.
Available at:
https://digitalcommons.pvamu.edu/aam/vol20/iss3/3
