Hybrid LES/RANS Simulation of the Effects of Boundary Layer Control Devices Using Immersed Boundary Methods

Abstract

This work has developed an extension of an existing immersed-boundary (IB) method to compressible, turbulent flows and has investigated its use in simulating the effects of different types of flow control devices: micro vortex generators, bleed-hole arrays, aeroelastically-deforming "mesoflaps", and boundary layer trips. The IB method has been used with Reynolds-averaged Navier-Stokes (Menter SST) and hybrid large-eddy simulation / Reynolds averaged Navier-Stokes (LES/RANS) turbulence closures. The method has been applied to oblique shock / turbulent boundary layer interactions with and without micro vortex-generator flow control (Cambridge University experiments), bleed flow control (NASA Glenn experiments), and aeroelastically-deforming mesoflap flow control (University of Illinois experiments). The results show that the IB approach can simulate the general effects of the control devices to a high degree of precision without requiring excessively fine meshes near the control element. The LES/RANS method is capable of accurately predicting mean-flow and second-moment statistics and can be used to provide insights into the effects of the control device in modulating the turbulent flow response.

Document Details

Document Type

Technical Report

Publication Date

Feb 22, 2010

Accession Number

ADA547418

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