- 作者:Pierre Auzillona ; b ; pierre.auzillon@ecp.fr ; Elé ; onore Riberc ; eleonore.riber@cerfacs.fr ; Laurent Y.M. Gicquelc ; Laurent.Gicquel@cerfacs.fr ; Olivier Gicquela ; b ; olivier.gicquel@ecp.fr ; Nasser Darabihaa ; b ; nasser.darabiha@ecp.fr ; Denis Veynantea ; b ; denis.veynante@ecp.fr ; Benoî ; t Fiorinaa ; b ; benoit.fiorina@ecp.fr
- 关键词:Turbulent combustion modeling ; Large Eddy Simulation ; Tabulated chemistry
- 刊名:Comptes Rendus Mecanique
- 出版年:2013
- 出版时间:January, 2013
- 年:2013
- 卷:341
- 期:1-2
- 页码:257-265
- 全文大小:1099 K
In order to account for detailed chemistry effects within LES, the numerical simulation uses the recently developed turbulent combustion model F-TACLES (Filtered TAbulated Chemistry for LES). The principle of this model is first to generate a lookup table where thermochemical variables are computed from a set of filtered laminar unstrained premixed flamelets. To model the interactions between the flame and the turbulence at the subgrid scale, a flame wrinkling analytical model is introduced and the Filtered Density Function (FDF) of the mixture fraction is modeled by a ¦Â function. Filtered thermochemical quantities are stored as a function of three coordinates: the filtered progress variable, the filtered mixture fraction and the mixture fraction subgrid scale variance. The chemical lookup table is then coupled with the LES using a mathematical formalism that ensures an accurate prediction of the flame dynamics. The numerical simulation of the CTA1 chamber with the F-TACLES turbulent combustion model reproduces fairly the temperature fields observed in experiments. In particular the influence of the fuel stream equivalence ratio on the flame position is well captured.