Unsteady MHD on Convective Flow of a Newtonian Fluid Past an Inclined Plate in Presence of Chemical Reaction with Radiation Absorption and Dufour Effects

Authors

  • Obulesu Mopuri Department of Mathematics, Siddharth Institute of Engineering &Technology (Autonomous), Puttur-517583, A.P., India
  • Raghunath Kodi. Madhu Department of Humanities and Sciences, Bheema Institute of Technology and Science, Adoni-518301, Andhra Pradesh, India
  • Mohan Reddy Peram Department of Mathematics, Siddharth Institute of Engineering &Technology (Autonomous), Puttur-517583, A.P., India.
  • Charankumar Ganteda Department of Mathematics, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, India
  • Giulio Lorenzini University of Parma, Department of Engineering and Architecture, Parco Area delle Scienze 181/A, Parma 43124, Italy
  • Nor Azwadi Sidik Malaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia, Jalan Sultan Yahya Petra, Kuala Lumpur, Malaysia

DOI:

https://doi.org/10.37934/cfdl.14.7.6276

Keywords:

Dufour effect, radiation absorption, MHD, porous medium, mixed convection, inclined plate

Abstract

In this study, emission incorporation and Dufour belongings are investigated for uneven magnetohydrodynamic assorted convection stream over a disposed holey moving shield with thermal emission, heat assimilation, and homogenous substance reactions subjected to changeable suction. The governing momentum equation, as well as the energy and mass diffusion equations, have analytical solutions. The Nusselt number, the Sherwood number, in addition to velocity, temperature, attentiveness, and skin friction, are computed and examined analytically and visually in order to observe the manipulate of a variety of parameters. Grashof number (Gr), modified Grashof number (Gm), magnetic parameter (M), permeability parameter (K), Prandtl number (Pr), Heat Sink (Q), Radiation parameter (F), Dufour parameter (Du), Radiation absorption constraint (R), Schmidt number (Sc), and Chemical reaction parameter (K0) are all non-dimensional parameters with different values. In porous medium, slow-moving chemical reaction fluids are the only source of the issue. In the future, researchers may look at the inertia effects of porous medium for high-velocity flows. Researchers interested in radiation absorption effects in porous media will find this a highly helpful resource.

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Author Biographies

Obulesu Mopuri, Department of Mathematics, Siddharth Institute of Engineering &Technology (Autonomous), Puttur-517583, A.P., India

mopuriobulesu1982@gmail.com

Raghunath Kodi. Madhu, Department of Humanities and Sciences, Bheema Institute of Technology and Science, Adoni-518301, Andhra Pradesh, India

kraghunath25@mail.com

Mohan Reddy Peram, Department of Mathematics, Siddharth Institute of Engineering &Technology (Autonomous), Puttur-517583, A.P., India.

giulio.lorenzini@unipr.it

Charankumar Ganteda, Department of Mathematics, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, India

charankumarganteda@kluniversity.in

Giulio Lorenzini, University of Parma, Department of Engineering and Architecture, Parco Area delle Scienze 181/A, Parma 43124, Italy

giulio.lorenzini@unipr.it

Nor Azwadi Sidik, Malaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia, Jalan Sultan Yahya Petra, Kuala Lumpur, Malaysia

azwadi@utm.my

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Published

2022-07-17

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