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Explicit finite difference simulations for accelerating cross diffusion flow over a perpendicular shield with parabolic motion

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DOI: 10.1016/j.jics.2022.100837

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Perpendicular shield; Oscillating flow; Parabolic motion; Soret and dufour effects; Explicit finite difference scheme

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The objective of this study is to observe the contribution of Soret and Dufour effects in oscillating shield for cross diffusion flow. The dimensionless problem is obtained via introducing the appropriate set of variables. The numerical outcomes are suggested by using the most interesting explicit finite difference scheme. Moreover, the aspect of physical quantities involving the flow are graphically reported.
The heat transfer phenomenon subject to thermos-diffusion effects convey important applications in the heating processes, extrusion systems, chemical processes and various engineering systems. The objective of current work is to observe the contribution of Soret and Dufour effects in oscillating shield for cross diffusion flow. The perpendicular shield with oscillating motion induced the flow. The magnitude of oscillations is assumed to be small so that laminar flow due to oscillating shield has been resulted. The motivations for addressing the thermos-diffusion phenomenon due to oscillating of shield are due to applications in oscillatory pumps, moving surface, metal detectors, power systems etc. The dimensionless problem is obtained via introducing the appro-priate set of variables. The numerical outcomes are suggested by using the most interesting explicit finite dif-ference scheme. The physical illustration for flow parameters is presented. Moreover, the aspect of physical quantities involving the flow are graphically reported.

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