期刊
APPLIED PHYSICS B-LASERS AND OPTICS
卷 126, 期 8, 页码 -出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s00340-020-07492-7
关键词
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资金
- German Research Foundation within the DFG [279056804, 229633504]
- DFG
- China Scholarship Council [201806210220]
This paper presents a laser-based absorption technique for measuring temperature and CO concentration in high-pressure shock tubes. Two fundamental vibrations of CO (v = 0, P8, 4.73 mu m andv = 1, R21, 4.56 mu m) were selected for high-temperature sensitivity with a reduced influence from pressure broadening compared to previous work. Single-pass absorption (80 mm path length) was measured with two quantum-cascade lasers. The technique was demonstrated by measuring time-resolved temperature for non-reactive mixtures at 1100-1960 K and 1.2-9.7 bar. During partial oxidation ofn-heptane, temperature and CO concentrations were measured with 4 mu s time resolution at 1360-1670 K and 5.8-8.2 bar. Interference from broadband CO(2)absorption was quantified and subtracted. Measured data in the burnout state are in excellent agreement with predictions from kinetics mechanisms (Mehl et al. Proc Combust Inst 33:193, 2011; Zhang et al. Combust Flame 172:116, 2016) over the entire range of operating conditions, which validates the performance of the current laser-absorption technique in reactive-mixture measurements. Additionally, time-resolved temperature and CO-concentration measurements agree well with predictions based on the Mehl et al. mechanism.
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