Modeling of Sandia Piloted Flame D and F using Flamelet-Generated Manifolds

For purpose of studying the application of Flamelet Generated Manifolds (FGM) model in numerical simulation of combustion, the combustion field of Sandia piloted flame D and F were studied using FGM model. The laminar flamelet database was generated using the laminar 1D freely propagating flame module of open source Cantera, and the chemical kinetic mechanism used GRI-Mech 2.11. The interaction of turbulence and combustion was taken into account utilizing beta-PDF(Probability Density Function), the integration of which was treated with Piecewise Integration Method(PIM), and the turbulent characteristics was captured with Realizable kappa-epsilon model. The comparison between the numerical method and experiments shows: FGM model can model the mixing and combustion characteristics of Flame D and F including prominent extinction and re-ignition phenomenon with high accuracy.