Feasibility of hydroxyl concentration measurements by laser-saturated fluorescence in high-pressure flames

Feasibility of hydroxyl concentration measurements by laser-saturated fluorescence in high-pressure flames

The effect of pressure on the laser-saturated fluorescence method for measuring OH concentration in high-pressure flames is studied using calculations for the burned-gas region of a stoichiometric H2-O2 flame at 2000 K. A numerical model of the excitation dynamics of OH is developed to explore the v...

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Veröffentlicht in:Appl. Opt.; (United States) 1987-11, Vol.26 (21), p.4551-4562
Hauptverfasser: Carter, Campbell D., King, Galen B., Laurendeau, Normand M., Salmon, J. Thaddeus
Format: Artikel
Sprache:eng
Schlagworte:
400102 - Chemical & Spectral Procedures
Analytical chemistry
CHEMICAL ANALYSIS
CHEMICAL REACTIONS
Chemistry
COMBUSTION
DIAGNOSTIC TECHNIQUES
EMISSION SPECTROSCOPY
Exact sciences and technology
FEASIBILITY STUDIES
FLAMES
HYDROXYL RADICALS
Inorganic And Physical Chemistry
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
LASER SPECTROSCOPY
OXIDATION
PRESSURE DEPENDENCE
QUANTITATIVE CHEMICAL ANALYSIS
RADICALS
Spectrometric and optical methods
SPECTROSCOPY
THERMOCHEMICAL PROCESSES
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Zusammenfassung:The effect of pressure on the laser-saturated fluorescence method for measuring OH concentration in high-pressure flames is studied using calculations for the burned-gas region of a stoichiometric H2-O2 flame at 2000 K. A numerical model of the excitation dynamics of OH is developed to explore the validity of the balanced cross-rate model at higher pressures. It is shown that depopulation of the laser-coupled levels is sensitive to collisions which depopulate v-double-prime (VDP) = 0 and to rate coefficients for rotational transfer in the ground state which are smaller than those in the excited state. In particular, it is shown that the depopulation of VDP = 0, and hence the laser-coupled levels, depends on the probability of electronic quenching to vibrational levels for which VDP is greater than 0 and vibrational relaxation to VDP = 0.
ISSN:0003-6935
1559-128X
1539-4522
DOI:10.1364/AO.26.004551