A numerical study on premixed bluff body flame of different bluff apex angle (Q459704)

Summary: In order to investigate effects of apex angle \((\alpha)\) on chemically reacting turbulent flow and thermal fields in a channel with a bluff body V-gutter flame holder, a numerical study has been carried out in this paper. With a basic geometry used in a previous experimental study, the apex angle was varied from \(45^\circ \) to \(150^\circ \). Eddy dissipation concept (EDC) combustion model was used for air and propane premixed flame. LES-Smagorinsky model was selected for turbulence. The gird-dependent learning and numerical model verification were done. Both nonreactive and reactive conditions were analyzed and compared. The results show that as \(\alpha \) increases, recirculation zone becomes bigger, and Strouhal number increases a little in nonreactive cases while decreases a little in reactive cases, and the increase of \(\alpha \) makes the flame shape wider, which will increase the chamber volume heat release ratio and enhance the flame stability.