Analysis of acoustic wave interactions with turbulent premixed flames

Large eddy simulation (LES) is a promising tool for numerical simulations of reacting flows, especially when combustion instabilities are encountered. In a first step toward prediction of such instabilities, LES of acoustically excited turbulent premixed flames is performed using a thickened flame a

Flamelet modeling of highly stretched jet flames is combined with the use of conditional moment closure second-order closure procedures to evaluate a pdf, p ˜(h| g ), of the reaction progress variable, h, that is conditioned upon a value of the mixture fraction g. Through the use of a probability of

The behaviour of a premixed turbulent ame is numerically studied in this paper. The numerical model is based on solving turbulent ow ÿeld by the discrete vortex method. The ame is considered to be of zero thickness boundary which separates burnt and unburnt regions with di erent constant density and

The effects of Lewis number on the global and local structure of premixed flames interacting with turbulent Kfirmfin vortex streets are experimentally investigated using OH planar-laser-induced fluorescence (PLIF). The OH PLIF results show that over the range of Lewis numbers studied, i.e., Le = 0.2