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Comparative analysis of algebraic models of laminar-turbulent transition
A. Stabnikov, A. Garbaruk, A. Matyushenko Peter the Great St. Petersburg Polytechnic University (SPBPU)
Abstract:
The paper presents the results of an extensive testing of four recently proposed algebraic
laminar-turbulent transition (LTT) models, which are significantly more computationally
effective than differential models while being potentially on par in accuracy. The models
chosen for evaluation, namely, SST KD, SST k$\gamma$, SST alg-$\gamma$ and SA BCM models, were
implemented in the in-house code NTS and verified by comparing obtained results with
those published by the models' authors. The experimental database used for the evaluation of the models includes transitional boundary layers at different free-flow turbulence
intensities with and without pressure gradient, four airfoil flows with different LTT scenarios, and a tandem of two airfoils. It is found that at low levels of turbulence intensity,
results of the SA BCM and SST k$\gamma$ models may depend on initial conditions, which does
not allow to recommend them for engineering applications. The best results, comparable
in accuracy to those of differential models, were obtained using the SST alg-$\gamma$ model.
Keywords:
laminar-turbulent transition, Reynolds equations, turbulence models, boundary layer, turbulence intensity, pressure gradient.
Received: 12.07.2023 Revised: 12.07.2023 Accepted: 16.10.2023
Citation:
A. Stabnikov, A. Garbaruk, A. Matyushenko, “Comparative analysis of algebraic models of laminar-turbulent transition”, Matem. Mod., 36:1 (2024), 141–157; Math. Models Comput. Simul., 16:3 (2024), 419–430
Linking options:
https://www.mathnet.ru/eng/mm4526 https://www.mathnet.ru/eng/mm/v36/i1/p141
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Abstract page: | 125 | Full-text PDF : | 4 | References: | 32 | First page: | 21 |
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