Heat Transport of Casson Nanofluid Flow over a Melting Riga Plate Embedded in a Porous Medium

Author:

Adeosun Adeshina Taofeeq1,Gbadeyan Jacob Abiodun1,Lebelo Ramoshweu Solomon2ORCID

Affiliation:

1. University of Ilorin

2. Vaal University of Technology

Abstract

This article investigates the flow of Casson nanofluid induced by a stretching Riga plate in the presence of a porous medium. The implication of the Riga plate is to generate electromagnetohydrodynamic force which influences the fluid speed, and as well applicable in delaying boundary layer separation. The complexity of the equations governing the problem is reduced using similarity transformation. The resulting coupled nonlinear ordinary differential equations are solved by employing Chebyshev collocation scheme (CCS) and validated with Galerkin weighted residual method (GWRM). The influence of parameters, such as modified Hartmann number and melting parameter, on the nanofluid flow, heat, and mass transfer is considered. Some of the major findings include that modified Hartmann number tends to increase nanofluid flow. Also, increasing the value of melting parameter is in favor of both velocity and nanoparticle volume fraction profiles but diminishes temperature profile. The application of this work can be found in polymer synthesis, metallic processing, and electromagnetic crucible systems.

Publisher

Trans Tech Publications, Ltd.

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