Influence of Brownian motion and viscous dissipation on Jeffrey Ternary-Hybrid Nanofluid Flow on an Unsteady Stretching Surface with Thermophoresis

Authors

  • M Annapoorna, Dr.E.Rama

Keywords:

Ternary hybrid nanofluid; Jeffrey fluid; Brownian motion; viscous dissipation.

Abstract

This research aims to analyze the influence related to viscous dissipation and Brownian motion on Jeffrey ternary-hybrid nanofluid flow upon anunsteady moving surface along mixed convection and thermophoresis. The surface mass flux is also regarded to be zero so that the nanoparticle fraction is preserved in the presence of a very large obstruction.Similarity transformations are used to change the governing non-linear PDEs in the direction of ODEs, which can be solved through numerical calculations via the shooting technique and the fourth-order R.K. integration scheme,Thedifferent graphical results are reviewed in detail with different parameters used. The staggering effect of related constraints on heat and velocity curves is inspected by varied schemes. The computational data for the skin friction coefficient andheat transfer rate are also graphically mentioned. It was found from the graphical results show that when Deborah's number and Hartmann's number decrease, the velocity curves rise, and as the mixed convection parameter increases, the velocity curves fall. Eckert number, Deborah number, Hartmann number, and mixed convection parameters have been detected to reveal the temperature profile. Ternary hybrid nanoparticles are especially susceptible to these phenomena. The increased Brownian motion of ternary hybrid nanoparticles results in a higher temperature because of the transformation of kinetic energy to heat energy. Concentrations of ternary nanofluids are enhanced by increasing the thermophoresis parameter. Because of the higher fluid density, the skin friction value for the Eckert number increased.

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Published

2024-07-23

How to Cite

M Annapoorna, Dr.E.Rama. (2024). Influence of Brownian motion and viscous dissipation on Jeffrey Ternary-Hybrid Nanofluid Flow on an Unsteady Stretching Surface with Thermophoresis. Utilitas Mathematica, 121, 68–82. Retrieved from https://utilitasmathematica.com/index.php/Index/article/view/1998

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