Numerical simulation of hydrogen/air jet diffusion flame at NAL

Diffusion flames by subsonic hydrogen jet injection into still air are numerically simulated with a fine grid system whose grid spacing is several times as large as the Kolmogorov scale. The result shows fairly good agreement with the experiment in the flame lift-off height and the calculated energy spectra are fairly sound. The fractal dimension of hydrogen mole fraction iso-surface is analyzed and the results show that the fractal dimension of the interface is 2.3-2.4 in unburned regions and decreases in burned regions, which coincides with the experimental measurements. The swirled injection effect is investigated and it is shown that the flame lift-off height becomes shorter by the swirl effect.