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Thermal Conductivity and Mixed Convection Influence on the Flow of Viscoelastic Fluid Due To Inclined Cylinder
Journal of Magnetics, Volume 28, Number 1, 31 Mar 2023, Pages 24-33
Abstract
The thermal flow of second grade fluid with Soret and Dufour effects has been observed in this investigation.
The problem is modified with mixed convection and thermal radiation applications. The thermal conductivity
with variable relations is used to analyze the transport phenomenon. Further, the applications of mixed convection
and magnetic force has also been focused. The convective thermal and concentration flow constraints are
used for the current flow problem. The shooting numerical scheme is used to calculate the numerical observations.
The major impact of parameters is visualized for flow parameters. It is observed that the velocity profile
increases for curvature parameter and viscoelastic fluid parameter. The assumptions of variable thermal conductivity
enhanced with transport phenomenon. The Nusselt number declined for variable thermal conductivity
parameter.
The problem is modified with mixed convection and thermal radiation applications. The thermal conductivity
with variable relations is used to analyze the transport phenomenon. Further, the applications of mixed convection
and magnetic force has also been focused. The convective thermal and concentration flow constraints are
used for the current flow problem. The shooting numerical scheme is used to calculate the numerical observations.
The major impact of parameters is visualized for flow parameters. It is observed that the velocity profile
increases for curvature parameter and viscoelastic fluid parameter. The assumptions of variable thermal conductivity
enhanced with transport phenomenon. The Nusselt number declined for variable thermal conductivity
parameter.
Keywords: second grade fluid; variable thermal conductivity; mixed convection flow; stretched cylinder; numerical scheme
DOI: https://doi.org/10.4283/JMAG.2023.28.1.024
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