Archivio Istituzionale della RicercaTurbulence modeling remains a significant challenge in Computational Fluid Dynamics. Achieving a balance between model accuracy and computational efficiency often leads to the widespread utilization of RANS (Reynolds Averaged Navier Stokes) turbulence models. The current study focuses on implementing the k−ε Lag Elliptic Blending turbulence model within OpenFOAM®. This extension of the conventional k−ε model introduces an elliptic equation to handle non-uniform behavior near walls and a transport equation to account for the lag between stress and strain tensors. Comparison of results from two benchmark cases with those obtained from the commercial software STAR-CCM+®, which also includes the model, reveals good agreement between the two codes. Consequently, the implementation can be considered verified.
Implementation of a Lag Elliptic-Blending model for RANS equations in OpenFOAM / Gajetti, Eleonora; Marocco, Luca; Boccardo, Gianluca; Buffo, Antonio; Savoldi, Laura. - In: OPENFOAM JOURNAL. - ISSN 2753-8168. - 4:(2024), pp. 104-116. [10.51560/ofj.v4.133]
Implementation of a Lag Elliptic-Blending model for RANS equations in OpenFOAM
Gajetti, Eleonora;Boccardo, Gianluca;Buffo, Antonio;Savoldi, Laura
2024
Abstract
Turbulence modeling remains a significant challenge in Computational Fluid Dynamics. Achieving a balance between model accuracy and computational efficiency often leads to the widespread utilization of RANS (Reynolds Averaged Navier Stokes) turbulence models. The current study focuses on implementing the k−ε Lag Elliptic Blending turbulence model within OpenFOAM®. This extension of the conventional k−ε model introduces an elliptic equation to handle non-uniform behavior near walls and a transport equation to account for the lag between stress and strain tensors. Comparison of results from two benchmark cases with those obtained from the commercial software STAR-CCM+®, which also includes the model, reveals good agreement between the two codes. Consequently, the implementation can be considered verified.
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18thOpenFOAMWorkshop_lagEB.pdf
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https://hdl.handle.net/11583/2992960