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Dr. Khalil Mohamed Khalil Mohamed :: Publications:

Title:
Impact of Variable Fluid Properties and Double Diffusive Cattaneo–Christov Model on Dissipative Non-Newtonian Fluid Flow Due to a Stretching Sheet
Authors: Khalil M. Khalil ; A. Soleiman; Ahmed M. Megahed; W. Abbas
Year: 2022
Keywords: Cattaneo–Christov model; Powell–Eyring fluid; chemical reaction; variable fluid properties
Journal: Mathematics
Volume: 10
Issue: 7
Pages: 1179
Publisher: MDPI
Local/International: International
Paper Link:
Full paper Khalil Mohamed Khalil Mohamed_mathematics-10-01179.pdf
Supplementary materials Not Available
Abstract:

The present work focuses on the attributes of flow, heat, and mass transfer together with double diffusive Cattaneo–Christov mechanism with regards to their applications. The aim of this study is to investigate the non-Newtonian Powell–Eyring fluid flow, taking into account the twofold impact of the heat generation mechanism and the viscous dissipation due to an extensible sheet. The chemical reaction between the fluid particles and the fluid variable properties is assumed in this study. The motive behind this study is the continuous and great interest in the utilization of nonNewtonian liquids in organic and technical disciplines. This model is administered and governed by the momentum equation, energy equation, and concentration, all of which are in the form of partial differential equations. With the help of the shooting technique, the numerical solution is obtained. Graphs show the characteristics of flow, heat, and mass transfer mechanisms for various governing parameters. Additionally, significant physical non-dimensional quantities have been presented in a tabular form. The outcomes detect that increasing the Deborah number, which is connected with the mass transfer field and the chemical reaction parameter, decreases the concentration distribution.

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