Assessment of a common nonlinear eddy-viscosity turbulence model in capturing laminarization in mixed convection flows
Date
2015-11-30
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Taylor and Francis
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Article
ISSN
1040-7782
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Citation
Amir Keshmiri, Alistair Revell & Hamidreza Gohari Darabkhani (2016) Assessment of a common nonlinear eddy-viscosity turbulence model in capturing laminarization in mixed convection flows, Numerical Heat Transfer, Part A: Applications, 69:2, 146-165
Abstract
Laminarization is an important topic in heat transfer and turbulence modeling. Recent studies have demonstrated that several well-known turbulence models failed to provide accurate prediction when applied to mixed convection flows with significant re-laminarization effects. One of those models, a well-validated cubic nonlinear eddy-viscosity model, was observed to miss this feature entirely. This paper studies the reasons behind this failure by providing a detailed comparison with the baseline Launder–Sharma model. The difference is attributed to the method of near-wall damping. A range of tests have been conducted and two noteworthy findings are reported for the case of flow re-laminarization.
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