Multiple Slip Effects on the Time Independent MHD Flow of a UCM Fluid over an Elongating Surface That Has Higher-Grade Chemical Reaction

Document Type

Article

Publication Title

International Journal of Heat and Technology

Abstract

This paper investigates the multiple slip boundary conditions on mass transmission flow of non-Newtonian fluid due to unsteady stretching sheet. Mathematical models are constructed by utilizing boundary layer approach. The governing equations of PDE's are converted into ODE's by using similarity transformations. It is important to carefully consider the various constraints that may affect the flow field, temperature and mass transfer in the study. The Governing equations are solved numerically by applying fourth order RK shooting method. The purpose of study includes mass transmission analysis and it is very important to resolve the current industrial and scientific problems. In this research work the consequences of multiple slip on time independent MHD stream of an UCM fluid over an elongating surface with upper grade chemical reaction investigated. This study's significant findings are rate of mass transmission at the surface decreases with enhancing momentum. Concentration drops for increasing values of Sc .The concentration distribution depicts during (γ > 0) and increases in (γ < 0). It is also important to ensure that the assumptions and approximations made in the study are valid and reasonable in order to obtain accurate and reliable results.

First Page

345

Last Page

352

DOI

10.18280/ijht.420137

Publication Date

2-1-2024

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