Planar Couette flow of power law nanofluid with chemical reaction, nanoparticle injection and variable thermal conductivity

Soumya, D. O.; Gireesha, B.J.; Venkatesh, P.

doi:10.1177/09544062211059071

Cited by 4 publications

(1 citation statement)

References 35 publications

(22 reference statements)

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“…Jha and Sarki [17] analyzed the efects of Dufour and chemical reaction on a moving vertical porous plate. Soumya et al [18] studied the efects of chemical reaction, variable thermal conductivity, and nanoparticles injection on the MHD three-dimensional free convective Couette fow. Reddy et al [19] discussed the efects of chemical reaction and thermal radiation on an unsteady MHD Couette fow through a porous medium with periodic wall temperature.…”

Section: Introductionmentioning

confidence: 99%

Effects of Chemical Reaction and Joule Heating on MHD Generalized Couette Flow between Two Parallel Vertical Porous Plates with Induced Magnetic Field and Newtonian Heating/Cooling

Mng’ang’a

2023

International Journal of Mathematics and Mathematical Sciences

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In this article, the effects of chemical reaction and Joule heating on MHD generalized Couette flow between two vertical porous plates with induced magnetic field and Newtonian heating/cooling have been investigated. The mathematical model used for the MHD generalized Couette flow takes into account the effect of viscous dissipation. The system of nonlinear partial differential equations governing the flow was solved numerically using the finite difference method. The resulting numerical schemes are simulated in MATLAB to obtain the profiles of the flow variables such as velocity, induced magnetic field, temperature, and concentration profiles graphically. Also, the effects of the flow parameters on the skin-friction coefficient, Nusselt number, and Sherwood number are obtained and discussed numerically through tabular forms. The findings show that an increase in the chemical reaction parameter leads to a decrease in the concentration profiles. Also, increase in the Joule heating parameter and heat generation parameter leads to an increase in the temperature profiles. Induced magnetic field profiles increase with an increase in Reynold’s number. The findings of this study are important due to its application in developing a variety of chemical technologies, including polymer manufacturing, MHD pumps, food processing, chemical catalytic reactors, astronomy, MHD flow meters, and lubrication.

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Section: Introductionmentioning

confidence: 99%