Efficacy of a Modulated Viscosity-dependent Temperature/nanoparticles Concentration Parameter on a Nonlinear Radiative Electromagneto-nanofluid Flow along an Elongated Stretching Sheet

Elagamy, Khaled;

Abstract


The purpose of the present communication is to investigate the flow of a radiative electromagnetic-Casson nanofluid
past a stretching sheet under the impacts of a chemical reaction and nonlinear thermal radiation. To enrich the blood flow, a
modulated viscosity/thermal conductivity dependent temperature/nanoparticles concentration parameter is included in the
governing equations. The system of PDEs is transformed to ODEs by invoking similarity transformations and then solved
numerically by the well- known fourth-order Runge-Kutta integration scheme based on shooting approach. The main factors
affecting the Casson fluid’s temperature profiles are revealed.

Other data

Title Efficacy of a Modulated Viscosity-dependent Temperature/nanoparticles Concentration Parameter on a Nonlinear Radiative Electromagneto-nanofluid Flow along an Elongated Stretching Sheet
Authors Elagamy, Khaled 
Keywords Stretching sheet;Electromagnetic Casson nanofluid;Nonlinear radiation;Variable viscosity/thermal conductivity;Shooting technique
Issue Date 10-Feb-2023
Journal Journal of Applied and Computational Mechanics 
Volume 9
Issue 3
Start page 848
End page 860
DOI 10.22055/jacm.2023.42294.3905

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Efficacy of a Modulated Viscosity-dependent Temperature/nanoparticles Concentration Parameter on a Nonlinear Radiative Electromagneto-nanofluid Flow along an Elongated Stretching Sheet


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