Experimental and numerical study of transient laminar counterflow diffusion flames

A laminar methane-air diffusion flame has been extensively probed for its temperature, velocity, and stable species' concentration profiles. The data obtained were used to validate a theoretical model capable of characterizing flame macrostructure and useful in predicting the effects of flow rate, e

We investigated the modeling of counterflow diffusion flames in which the products of ammonium perchlorate (AP) combustion were counterflowed against an ethylene fuel stream. The two-dimensional problem can be reduced to a one-dimensional boundary value problem along the stagnation point streamline

The effkcts of radiative transfer on the structure and extinction limits of counterflow HJO,N, diffusion flames are studied numerically using detailed kinetics and transport properties. The radiative properties of the main emitting species H,O and OH in these flames, are represented using a statisti

A partially premixed methane/air flame in a two-dimensional configuration was studied in this work. The configuration was close to those used in real domestic boilers. The flame structure and flow pattern were calculated by implementing a complex chemistry and detailed transport formulation in an in