MHD and Thermal Slip Effects on Viscous Fluid over Symmetrically Vertical Heated Plate in Porous Medium: Keller Box Analysis
نویسندگان
چکیده
The heat transfer characteristics along the non-magnetized shapes have been performed in various previous studies numerically. Due to excessive heating, these mechanisms are less interesting engineering and industrial processes. In current analysis, surface is magnetized, fluid electrically conducting, which responsible for reducing heating surface. main objective of present work analyze convective analysis viscous flow with thermal slip radiation effects vertical symmetric heated plate immersed a porous medium results deduced magnetized theoretical mechanism magnetic intensity investigated numerical analysis. nonlinear-coupled partial differential equations (PDEs) above symmetry conditions normal transformed then converted into non-similar formulations by applying appropriate well-known similarity transformations integration solutions. final numerically integrated employing Keller box method. discretized algebraic plotted graphically on MATLAB R2013a software package. finding compute physical quantities such as velocity graph, field temperature plot their slopes, that is, skin friction, intensity, different parameters included model. First, graph obtained, slopes analyzed It noticed increased at lower force, but minimum maximum force. worth mentioning increase energy increases, extracts kinetic causes above-said behavior. Furthermore, issues significant implications polymer industries, glass fiber production, petroleum spinning, plastic film sheet extraction, exchangers, catalytic reactors, production electronic devices.
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ژورنال
عنوان ژورنال: Symmetry
سال: 2022
ISSN: ['0865-4824', '2226-1877']
DOI: https://doi.org/10.3390/sym14112421