Mid-infrared laser absorption spectroscopy of NO2 at elevated temperatures

A mid-infrared quantum cascade laser absorption sensor was developed for in-situ detection of NO2 in high-temperature gas environments. A cluster of spin-split transitions near 1599.9cm−1 from the ν3 absorption band of NO2 was selected due to the strength of these transitions and the low spectral in...

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Bibliographic Details
Published in:Journal of quantitative spectroscopy & radiative transfer 2017-01, Vol.187, p.364-374
Main Authors: Sur, Ritobrata, Peng, Wen Yu, Strand, Christopher, Mitchell Spearrin, R., Jeffries, Jay B., Hanson, Ronald K., Bekal, Anish, Halder, Purbasha, Poonacha, Samhitha P., Vartak, Sameer, Sridharan, Arun K.
Format: Article
Language:English
Subjects:
Broadening
High temperature
Mid-infrared detection
NO2
Spectroscopy
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Summary:A mid-infrared quantum cascade laser absorption sensor was developed for in-situ detection of NO2 in high-temperature gas environments. A cluster of spin-split transitions near 1599.9cm−1 from the ν3 absorption band of NO2 was selected due to the strength of these transitions and the low spectral interference from water vapor within this region. Temperature- and species-dependent collisional broadening parameters of ten neighboring NO2 transitions with Ar, O2, N2, CO2 and H2O were measured and reported. The spectral model was validated through comparisons with direct absorption spectroscopy measurements of NO2 seeded in various bath gases. The performance of the scanned wavelength modulation spectroscopy (WMS)-based sensor was demonstrated in a combustion exhaust stream seeded with varying flow rates of NO2, achieving reliable detection of 1.45 and 1.6ppm NO2 by mole at 600K and 800K, respectively, with a measurement uncertainty of ±11%. 2σ noise levels of 360ppb and 760ppb were observed at 600K and 800K, respectively, in an absorption path length of 1.79m. •Spectroscopy of ten neighboring spin-split NO2 transitions in ν3 band.•Collision broadening coefficients measured with Ar, N2, O2, CO2, and H2O.•Temperature-dependence of broadening coefficients were measured up to 600K.•Sensor spectroscopy was validated using direct absorption spectroscopy.•Performance of scanned WMS sensor was demonstrated at 600K and 800K in burner exhaust.
ISSN:0022-4073
1879-1352
DOI:10.1016/j.jqsrt.2016.10.016