Thermal analysis of higher-order chemical reactive viscoelastic nanofluids flow in porous media via stretching surface

Author:

Eid Mohamed R12ORCID,Mabood F3ORCID

Affiliation:

1. Department of Mathematics, Faculty of Science, New Valley University, El-Kharga, Egypt

2. Department of Mathematics, Faculty of Science, Northern Border University, Arar, Saudi Arabia

3. Department of Information Technology, Fanshawe College London, ON, Canada

Abstract

The essence of the present investigation is to reveal the hydrothermal variations of viscoelastic nanofluid flow in a porous medium over a stretchable surface. A higher-order chemical reaction is incorporated with thermophoresis and Brownian motion. Similarity conversions reduce the resulting equations into their dimensionless form and then solved using Runge-Kutta-Fehlberg (RKF) based shooting procedure. The effects of underlying factors on the flow are discussed through various graphs and tables. Computational results for noteworthy skin friction and heat and mass transport are presented and reviewed with sensible judgment. The study reveals that the fluid velocity reduces with incremental values of the viscoelastic parameter [Formula: see text] and magnetic strength. The temperature reduces for the suction parameter with the existence of stretchable but enhances with thermophoresis and Brownian motion effects. Heat transfer rate amplifies for [Formula: see text] but declines for [Formula: see text]. Mass transfer rate increases with the increase in Brownian parameter and Schmidt number. A comparative analysis shows a better agreement with previous results in limiting scenarios.

Publisher

SAGE Publications

Subject

Mechanical Engineering

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