Effects of flow field on combustion characteristics of confined jet nonpremixed flames

Confined flames are widely used in the industrial field. The flame characteristics can be strongly dominated by the combination of a burner and furnace geometries, which were not paid much attention before. In the present study, flow fields in confined flames are discussed in terms of the flame characteristics. The flow characteristics of confined flames have been investigated for propane nonpremixed flames in cylindrical furnaces. The effects of the inner diameter of the cylindrical furnace D-1, the turbulence at the flame boundary, and the global equivalence ratio phi are examined in terms of the relation between the emission of NOx and the flow fields. The emission index of NOx, EINOx, decreases roughly with these parameters. The decrease in EINOx is thought to be related to the dilution of mixtures by the burned gas and the flame stretch. The dilution is attributable to vortices formed at the bottom of the furnace, and the flame stretch is attributable to the air velocity difference Delta Ua created by two air nozzles. In the present study, it was found that the increases in D-1, Delta Ua, and phi enlarge and strengthen recirculation vortices to dilute the flame.