English

Development and validation of a transition model based on a mechanical approximation

Fluid Dynamics 2015-01-12 v1

Abstract

A new 3D transition turbulence model, more accurate and faster than an empirical transition model, is proposed. The model is based on the calculation of the pre-transitional u'v' due to mean flow shear. The present transition model is fully described and verified against eight benchmark test cases. Computations are performed for the ERCOFTAC flat-plate T3A, T3C and T3L test cases. Further, the model is validated for bypass, cross-flow and separation induced transition and compared with empirical transition models. The model presents very good results for bypass transition under zero-pressure gradient and with pressure gradient flow conditions. Also the model is able to correctly predict separation induced transition. However, for very low speed and low free-stream turbulence intensity the model delays separation induced transition onset. The model also shows very good results for transition under complex cross-flow conditions in three-dimensional geometries. The 3D tested case was the 6:1 prolate-spheroid under three flow conditions.

Keywords

Cite

@article{arxiv.1501.02115,
  title  = {Development and validation of a transition model based on a mechanical approximation},
  author = {R. Vizinho and J. Páscoa and M. Silvestre},
  journal= {arXiv preprint arXiv:1501.02115},
  year   = {2015}
}

Comments

40 pages, 32 figures

R2 v1 2026-06-22T07:56:10.437Z