Research Article
Analyzing Steady State Heat and Mass Transfer in Jeffrey Nanofluid with Nonlinear Thermal Radiation
Michael Williams*,
Isah Bala Yabo,
Aminu Mustafa,
Ahmed Audu
Issue:
Volume 9, Issue 3, June 2023
Pages:
23-34
Received:
7 October 2023
Accepted:
23 October 2023
Published:
22 December 2023
Abstract: The steady state magnetohydrodynamic flow of Jeffrey nanofluid with nonlinear thermal radiation, over a porous plate together with prescribed boundary conditions of interest was carried out via Lie symmetry group alteration. The all-inclusive flow of the present model incorporates the Jeffrey parameters, nonlinear thermal radiation, heat generation, Brownian motion, chemical reaction, thermophoresis and porosity parameter. The derived governing equations of the problem are highly nonlinear coupled partial differential equations. The Lie group approach was used to convert the system partial differential equations to a system of ordinary differential equations which was solved numerically with the help of a matlab solver called bvp4c. The established numerical results were discussed with help of line graph. The Rayleigh number and porosity parameter enriched the velocity fluid. The rise of the temperature ratio parameter and heat generation parameter improved the temperature contours and is reduced by boosting the Prandtl number. Lewis number, chemical reaction parameter diminished the concentration profile and took the opposite direction for Biot number. Equally, by improving Jeffrey parameter and Hartmann number weakened skin friction profile. Also, Sherwood number, and the Nusselt number were also expanded. The recent outcome will be useful in the automobile industry, polymer industry and so on.
Abstract: The steady state magnetohydrodynamic flow of Jeffrey nanofluid with nonlinear thermal radiation, over a porous plate together with prescribed boundary conditions of interest was carried out via Lie symmetry group alteration. The all-inclusive flow of the present model incorporates the Jeffrey parameters, nonlinear thermal radiation, heat generation...
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