Numerical Study of Suction Injection Driven Nanofluid Through Parallel Plates Channel

Authors

Hina Bashir Department of Mathematics & Statistics, University of Southern Punjab, Multan, Pakistan
Huma Gull Department of Mathematics & Statistics, University of Southern Punjab, Multan, Pakistan
Azra Aziz Department of Mathematics & Statistics, University of Southern Punjab, Multan, Pakistan
Bisma Imran Department of Mathematics & Statistics, University of Southern Punjab, Multan, Pakistan

Keywords:

Nanofluid, Injection/Suction, Reynolds' Number

Abstract

The main purpose of this research is to analyze the effects of nanofluids that are based on the injection and suction parameters, where the channel is structured using parallel plates. For making governing PDEs dimensionless, we use similarity transformations to convert them into a system of coupled nonlinear ODEs. These ODEs are solved by applying the method of Quasi-Linearization, and on the other hand, structural derivatives are approximated by using the central difference technique. The effects of employing parameters on temperature and velocity are graphically studied. During the injunction, mass transfer decreases and increases in the case of suction transfer rate of heat and mass for the Reynolds number.

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Published

24-07-2025

How to Cite

Hina Bashir, Huma Gull, Azra Aziz, & Bisma Imran. (2025). Numerical Study of Suction Injection Driven Nanofluid Through Parallel Plates Channel. Southern Journal of Research, 5(02(01), 14–23. Retrieved from http://sjr.usp.edu.pk/index.php/journal/article/view/99

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Issue

Vol. 5 No. 02(01) (2025): Southern Journal of Research

Section

Articles

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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.