International Journal of Chemical Engineering and Materials
E-ISSN: 2945-0519
Volume 3, 2024
Radiative Flow and Heat Transfer of Chemically Reacted Casson Nanofluid Over a Wedge Under the Influence of MHD and Viscous Dissipation
Authors: , , ,
Abstract: The effect of thermal radiation, viscous dissipation with magnetohydrodynamic and chemically reacted Casson Nano fluid flow across a moving wedge and convective boundary condition in existence of internal heat generation/absorption is studied, the obtained results are presented. The simple governing partial differential equations are altered into non-linear ordinary differential equations through employing suitable similarity transformations. The obtained non-linear ordinary differential equations are effectively elucidated numerically through Keller-Box method by use of MATLAB software. The variation of the pertinent constraints on velocity, temperature and nanoparticle volume fraction are explored through graphs. The graphs of skin friction coefficient, Nussult number and Sherwood number are plotted as a function of physical parameters for different values. The present results are well matched with the previous reported work. The present work demonstrates the nanoparticle volume fraction profile decrease by enhance of chemical reaction, Brownian motion, Schmidt parameter values and increases with increment in thermophoresis parameter values.
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Pages: 39-54
DOI: 10.37394/232031.2024.3.6