Experimental and Numerical Investigation of the Diffusion of a Confined Wall Jet through a Perforated Plate - Archive ouverte HAL Access content directly
Journal Articles Open Journal of fluid Dynamics Year : 2022

Experimental and Numerical Investigation of the Diffusion of a Confined Wall Jet through a Perforated Plate

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Abstract

When performing numerical modeling of fluid flows where a clear medium is adjacent to a porous medium, a degree of difficulty related to the condition at the interface between the two media, where slip velocity exists, is encountered. A similar situation can be found when a jet flow interacts with a perforated plate. The numerical modeling of a perforated plate by meshing in detail each hole is most often impossible in a practical case (many holes with different shapes). Therefore, perforated plates are often modeled as porous zones with a simplified hypothesis based on pressure losses related to the normal flow through the plate. Nevertheless, previous investigations of flow over permeable walls highlight the impossibility of deducing a universal analytical law governing the slip velocity coefficient since the latter depends on many parameters such as the Reynolds number, porosity, interface structure, design of perforations, and flow direction. This makes the modeling of such a configuration difficult. The present study proposes an original numerical interface law for a perforated plate. It is used to model the turbulent jet flow interacting with a perforated plate considered as a fictitious porous medium without a detailed description of the perforations. It considers the normal and tangential effects of the flow over the plate. Validation of the model is realized through comparison with experimental data.
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Dates and versions

hal-03741369 , version 1 (01-08-2022)

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Attribution - CC BY 4.0

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Moussa Diop, D. Flick, Graciela Alvarez, Jean Moureh. Experimental and Numerical Investigation of the Diffusion of a Confined Wall Jet through a Perforated Plate. Open Journal of fluid Dynamics, 2022, 12 (2), pp.168 - 212. ⟨10.4236/ojfd.2022.122009⟩. ⟨hal-03741369⟩
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