Predictive Simulation of Two-dimensional Flat Plate Boundary Layer Transition

Predictive Simulation of Two-dimensional Flat Plate Boundary Layer Transition

The laminar-turbulent transition is an old but still not a fully solved problem, which is mainly studied from the following aspects: (1) how the perturbation is generated and the receptivity problems (2) linear and nonlinear problems during the evolution of the perturbation (3) numerical simulation...

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Bibliographic Details
Published in:SHS web of conferences Vol. 144; p. 2012
Main Author: Li, Yunzhen
Format: Journal Article Conference Proceeding
Language:English
Published: Les Ulis EDP Sciences 2022
Online Access:Get full text
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Summary:The laminar-turbulent transition is an old but still not a fully solved problem, which is mainly studied from the following aspects: (1) how the perturbation is generated and the receptivity problems (2) linear and nonlinear problems during the evolution of the perturbation (3) numerical simulation of the transition problem and the actual prediction. Considering that the power system of the vehicle is working in a low Reynolds number environment for a long time when flying at high altitudes. In this article, the research focuses on the turbulence model with the introduction of the AGS transition model is used to simulate the two-dimensional flat plate boundary layer transition in the low Reynolds number case, and to predict the transition location by combining the stability of different positions of the flow process, and to evaluate the accuracy of the transition model in comparison with other numerical simulation methods.
ISSN:2261-2424
2416-5182
2261-2424
DOI:10.1051/shsconf/202214402012