Publication Type : Journal Article
Publisher : World Scientific
Source : Int. J. Mod. Phys. B. 37 (2023) 2350008
Url : https://www.worldscientific.com/doi/10.1142/S021797922350008X
Campus : Bengaluru
School : School of Engineering
Year : 2023
Abstract : The aim of this paper is to highlight the impact of thermophoretic particle deposition (TPD) and heat source/sink on the steady two-dimensional laminar motion of Casson hybrid-type nanoliquid through a nonlinear stretched surface. Ordinary differential equations (ODEs) are created by taking a collection of partial differential equations (PDEs) and simplifying them using an appropriate similarity component. The reduced ODEs are then evaluated using the shooting method and Runge–Kutta–Fehlberg’s fourth and fifth orders. Finally, tables and graphs are used to display the numerical data. It is seen that the fluid velocity step-downs when the porous parametric quantity and solid nanoparticle values increase. Heat distribution is enhanced with an enhancement in the heat source/sink constraint. Concentration goes down with an enhancement in thermophoretic constraint. The use of nanoparticles improves heat dispersion but reduces concentration in the linear case while increasing axial velocity in the nonlinear scenario.
Cite this Research Publication : G.K. Ramesh, J.K. Madhukesh, U. Khan, S.M. Hussain, A.M. Galal, Inspection of hybrid nanoparticles flow across a nonlinear/linear stretching surface when heat sink/source and thermophoresis particle deposition impacts are significant, Int. J. Mod. Phys. B. 37 (2023) 2350008. [World Scientific], Impact Factor: 1.404, Journal quartile: Q3