Local laminarization in turbulent diffusion flames

The transition phenomena in free jet diffusion flames of pure hydrogen and hydrogen-nitrogen mixtures were studied in unconfined still air using the schlieren technique. The break-point lengths of both the inner fuel jet and outer flame zone were measured as the jet exit Reynolds number was varied b

A microscale, % -0jj"3, is introduced for turbulent diffusion flames, where t) and me, respectively, are the Kolmogorov scale and the flame Schmidt number. In terms of this scale, the turbulent mass transfer integrated over a length I of a liquid fuel is shown to be M' = pBL, % where p is the dynami

A fundamental dimensionless number for pool fires, is proposed. Here o n and Ra~ denote a flame Schmidt number and a flame Rayleigh number. The sublayer thickness of a turbulent pool fire, 7¢, is shown in terms of II~ to be where / is an integral scale, The fuel consumption in a turbulent pool fire

A model has been developed for the composition in diffusion flames. It consists of a flame sheet for the pyrolysis or consumption of fuel on the rich side of sloichiometric. Near stoichiometric the molecular and radical species are assumed to be in partial equilibrium and the burnout of CO is contro