A technique has been developed for measuring the temperature during a transient combustion event. It combines the features of atomic resonance absorption and direct sampling to produce a relatively simple, intrusive diagnostic technique to obtain time-resolved measurements. In this study, a propagating hydrogen/air flame was used to provide a rapid temperature increase. A small fraction of krypton was added to the reactants and the absorption of resonant radiation at 123.5 nm was recorded downstream of the sampling orifice within a flow tube. Conversion from absorption measurements to temperature values was performed using a computer model of the radiation source and the absorption by the sample. The model of the source was validated by comparing predicted and recorded spectra of hydrogen Lyman-α emissions, while the absorption model for the sampled gas was tested by comparing the temperatures predicted by krypton absorption measurements with those recorded at a range of known temperatures. The direct sampling atomic resonance technique minimizes time-history distortions inherent in other direct sampling techniques, and is capable of tracking local temperatures during the passage of a propagating flame front.
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Optical Determination of Stagnation Temperature Behind a Gas Sampling Orifice
J. R. Herron,
J. R. Herron
Dept. of Mechanical Engineering, Oregon State University, Corvallis, OR 97331
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R. B. Peterson
R. B. Peterson
Dept. of Mechanical Engineering, Oregon State University, Corvallis, OR 97331
Search for other works by this author on:
J. R. Herron
Dept. of Mechanical Engineering, Oregon State University, Corvallis, OR 97331
R. B. Peterson
Dept. of Mechanical Engineering, Oregon State University, Corvallis, OR 97331
J. Heat Transfer. Nov 1990, 112(4): 1070-1075 (6 pages)
Published Online: November 1, 1990
Article history
Received:
September 19, 1989
Revised:
January 29, 1990
Online:
May 23, 2008
Citation
Herron, J. R., and Peterson, R. B. (November 1, 1990). "Optical Determination of Stagnation Temperature Behind a Gas Sampling Orifice." ASME. J. Heat Transfer. November 1990; 112(4): 1070–1075. https://doi.org/10.1115/1.2910480
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