Hydroxyl radical measurement in atmospheric pressure dimethyl ether-air laminar premixed flat flame using tunable diode laser absorption spectroscopy
Nevrlý, V.; Dostál, Michal; Bitala, P.; Zelinger, Zdeněk; Suchánek, Jan; Válek, V.; Klečka, V.; Kubát, Pavel; Engst, Pavel; Vašinek, M.; Wild, J.
2017 - English Spectroscopic detection of hydroxyl (OH) radical and determination of its concentration in flames have an elusive history and considerable influence on combustion research. Electronic transitions in ultraviolet spectral region were extensively studied in this context and until recent time chemiluminescence or laser induced fluorescence of excited hydroxyl (OH*) radical is broadly used for absolute concentration and temperature measurement in flames.\nHowever, number densities of molecular species and population of relevant quantum levels in ground electronic state can be directly estimated from intensities of absorption lines observed by probing rovibrational transitions in infrared spectral region. Application of near-infrared tunable diode laser absorption spectroscopy (NIR-TDLAS) for the given purpose was demonstrated in an earlier work of Aizawa et al. [1]. Following his pioneering studies summarized in [2], we further explored feasibility of NIR-TDLAS (especially 2f-WMS technique) for monitoring minor species within combustion experiments particularly when dealing with dimethyl ether (DME) flames. Here we report our first results of NIR-TDLAS measurements focused on hydroxyl radical detection in laminar premixed flame burning DME-air mixture under fuel-lean conditions. Keywords: spectroscopy; tunable diode laser absorption spectroscopy; hydroxyl Available in digital repository of the ASCR Hydroxyl radical measurement in atmospheric pressure dimethyl ether-air laminar premixed flat flame using tunable diode laser absorption spectroscopy

Spectroscopic detection of hydroxyl (OH) radical and determination of its concentration in flames have an elusive history and considerable influence on combustion research. Electronic transitions in ...

Nevrlý, V.; Dostál, Michal; Bitala, P.; Zelinger, Zdeněk; Suchánek, Jan; Válek, V.; Klečka, V.; Kubát, Pavel; Engst, Pavel; Vašinek, M.; Wild, J.
Ústav fyzikální chemie J. Heyrovského, 2017