In this article, recent developments in numerical methods for performing a large-eddy simulation of the formation and evolution of a wingtip vortex are presented. The development of these vortices in the near wake, in combination with the large Reynolds numbers present in these cases, makes these types of test cases particularly challenging to investigate numerically. First, an overview is given of the spectral vanishing viscosity/implicit large-eddy simulation solver that is used to perform the simulations, and techniques are highlighted that have been adopted to solve various numerical issues that arise when studying such cases. To demonstrate the method’s viability, results are presented from numerical simulations of flow over a NACA 0012 profile wingtip at and they are compared against experimental data, which is to date the highest Reynolds number achieved for a large-eddy simulation that has been correlated with experiments for this test case. The model in this paper correlates favorably with experiment, both for the characteristic jetting in the primary vortex and pressure distribution on the wing surface. The proposed method is of general interest for the modeling of transitioning vortex-dominated flows over complex geometries.
Implicit Large-Eddy Simulation of a Wingtip Vortex
AIAA Journal ; 54 , 2 ; 506-518
01.02.2016
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Implicit Large-Eddy Simulation of a Wingtip Vortex
Online Contents | 2015
|Implicit Large-Eddy Simulation of a Wingtip Vortex
Online Contents | 2016
|Wingtip Vortex Simulation by Using Nonequilibrium Eddy Viscosity Model
Online Contents | 2010
|