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Carlo Gualtieri - Universita di Napoli

On the Values for the Turbulent Schmidt Number in Environmental Flows

Vendredi 27 avril 2018, 11h, INSA, bât. humanités, Amphi Est

 On the Values for the Turbulent Schmidt Number in Environmental Flows

Computational Fluid Dynamics (CFD) has consolidated as a tool to provide understanding and quantitative information regarding many complex environmental flows. The accuracy and reliability of CFD modelling results oftentimes come under scrutiny because of issues in the implementation of and input data for those simulations. Regarding the input data, if an approach based on the Reynolds-Averaged Navier-Stokes (RANS) equations is applied, the turbulent scalar fluxes are generally estimated by assuming the standard gradient diffusion hypothesis (SGDH), which requires the definition of the turbulent Schmidt number, Sct (the ratio of momentum diffusivity to mass diffusivity in the turbulent flow). However, no universally-accepted values of this parameter have been established or, more importantly, methodologies for its computation have been provided.
This presentation firstly introduces the context of Environmental Fluid Mechanics. Second, the approach based on Reynolds averaging to treat turbulent flow and mixing is presented. Third, it presents a review of previous studies about Sct in environmental flows, involving both water and air systems. Secondly, three case studies are presented where the key role of a correct parameterization of the turbulent Schmidt number is pointed out. These include: (1) transverse mixing in a shallow water flow; (2) tracer transport in a contact tank; and (3) sediment transport in suspension. An overall picture on the use of the Schmidt number in CFD emerges from the presentation.

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