Ammonia detection and monitoring with photofragmentation fluorescence

Ammonia detection and monitoring with photofragmentation fluorescence

Excimer laser fragmentation-fluorescence spectroscopy is an effective detection strategy for NH(3) in combustion exhausts at atmospheric pressure and high temperatures. Two-photon photofragmentation of NH(3) with 193-nm light yields emission from the NH(A-X) band at 336 nm. There are no major interf...

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Veröffentlicht in:Applied Optics 1998-12, Vol.37 (36), p.8382-8391
Hauptverfasser: Buckley, S G, Damm, C J, Vitovec, W M, Sgro, L A, Sawyer, R F, Koshland, C P, Lucas, D
Format: Artikel
Sprache:eng
Schlagworte:
40 CHEMISTRY
AMMONIA
CHEMICAL ANALYSIS
FLUORESCENCE SPECTROSCOPY
PHOTOCHEMISTRY
REAL TIME SYSTEMS
TEMPERATURE RANGE 1000-4000 K
ULTRAVIOLET SPECTRA
ULTRAVIOLET SPECTROMETERS
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Zusammenfassung:Excimer laser fragmentation-fluorescence spectroscopy is an effective detection strategy for NH(3) in combustion exhausts at atmospheric pressure and high temperatures. Two-photon photofragmentation of NH(3) with 193-nm light yields emission from the NH(A-X) band at 336 nm. There are no major interferences in this spectral region, and the sensitivity is at the parts per billion (ppb) level. Quenching of the NH(A) state radical by the major combustion products is measured and does not limit the applicability of the detection method. Detection limits in practical situations are of the order of 100 ppb for a 100-shot (1-s) average. This technique could prove useful in monitoring ammonia emissions from catalytic and noncatalytic NO(x) reduction processes involving ammonia injection.
ISSN:1559-128X
0003-6935
1539-4522
DOI:10.1364/AO.37.008382