Title of article
A reformulated synthetic turbulence generation method for a zonal RANS–LES method and its application to zero-pressure gradient boundary layers
Author/Authors
Roidl، نويسنده , , David B. and Meinke، نويسنده , , M. and Schrِder، نويسنده , , W.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
13
From page
28
To page
40
Abstract
A synthetic turbulence generation (STG) method for subsonic and supersonic flows at low and moderate Reynolds numbers to provide inflow distributions of zonal Reynolds-averaged Navier–Stokes (RANS) – large-eddy simulation (LES) methods is presented. The STG method splits the LES inflow region into three planes where a local velocity signal is decomposed from the turbulent flow properties of the upstream RANS solution. Based on the wall-normal position and the local flow Reynolds number, specific length and velocity scales with different vorticity content are imposed at the inlet plane of the boundary layer. The quality of the STG method for incompressible and compressible zero-pressure gradient boundary layers is shown by comparing the zonal RANS–LES data with pure LES, pure RANS, and direct numerical simulation (DNS) solutions. The distributions of the time and spanwise wall-shear stress, Reynolds stress distributions, and two point correlations of the zonal RANS–LES simulations are smooth in the transition region and in good agreement with the pure LES and reference DNS findings. The STG approach reduces the RANS-to-LES transition length to less than four boundary-layer thicknesses.
Keywords
Synthetic turbulence generation , Flat-plate boundary layers , Zonal RANS–LES method
Journal title
International Journal of Heat and Fluid Flow
Serial Year
2013
Journal title
International Journal of Heat and Fluid Flow
Record number
2382230
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