Scaling of buoyant turbulent jet diffusion flames

Horizontal jet flames are formed in oil and gas well diverter fires, some accidental leak fires, and furnaces that utilize horizontal fuel injectors. In spite of these applications, only a few studies of flames in the horizontal configuration have been reported in the literature [1-3].

This work considers the applicability of different versions of the k-e hypothesis of turbulence for flame modeling. Utilizing similarity solutions, we find that the k-e hypothesis gives a finite radius for a weak axysimmetric plume above the heat source. The radius of this plume is defined as an eig

The boundary layer equations describing the conservation of momentum, energy and mass concentration in an axisymmetrical turbulent jet flame are solved for a Lewis number unity in the yon Mises plane. Some measurements of velocity and temperature in liquefied petroleum gas flames are reported and co

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