In situ TDLAS measurement of absolute acetylene concentration profiles in a non-premixed laminar counter-flow flame

Acetylene (C₂H₂), as an important precursor for chemiluminescence species, is a key to understand, simulate and model the chemiluminescence and the related reaction paths. Hence we developed a high resolution spectrometer based on direct Tunable Diode Laser Absorption Spectroscopy (TDLAS) allowing the first quantitative, calibration-free and spatially resolved in situ C₂H₂ measurement in an atmospheric non-premixed counter-flow flame supported on a Tsuji burner. A fiber-coupled distributed feedback diode laser near 1535 nm was used to measure several absolute C₂H₂ concentration profiles (peak concentrations up to 9700 ppm) in a laminar non-premixed CH₄/air flame (T up to 1950 K) supported on a modified Tsuji counter-flow burner with N₂ purge slots to minimize end flames. We achieve a fractional optical resolution of up to 5×10^?5 OD (1σ) in the flame, resulting in temperature-dependent acetylene detection limits for the P17e line at 6513 cm^?1 of up to 2.1 ppm?m. Absolute C₂H₂ concentration profiles were obtained by translating the burner through the laser beam using a DC motor with 100 μm step widths. Intercomparisons of the experimental C₂H₂ profiles with simulations using our new hydrocarbon oxidation mechanisms show excellent agreement in position, shape and in the absolute C₂H₂ values.