Quantum-cascade-laser-based dual-comb thermometry and speciation at high temperatures

Pinkowski Nicolas H.; Cassady Sean J.; Strand Christopher L.; Hanson Ronald K.

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Quantum-cascade-laser-based dual-comb thermometry and speciation at high temperatures

机译：基于量子级联 - 激光的双梳子温度和高温的形态

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This work presents a methodology for using spectroscopic models to fit absorption-spectrum measurements made by a quantum-cascade-laser-based dual-comb spectrometer (QCL-DCS) for high-temperature kinetics research. A pair of quantum-cascade frequency combs was employed to detect methane's nu(4) absorption features between 1270 and 1320 cm(-1) in high-temperature shock-tube environments and extract methane mole fraction and gas temperature from the results. The methodology was first validated by comparing DCS measurements against modeled methane spectra at room temperature in a static cell, followed by assessing the fitting procedure in shock-heated mixtures of 2% methane in Ar at 1000 K. In both validation experiments, the tradeoffs between time resolution and measurement precision were explored. Measurements were achieved at a 4 mu s measurement rate with 5% uncertainty for temperature and 4% uncertainty for mole fraction at 1000 K. Higher accuracy was achieved with longer measurement averaging, e.g. 1.8% uncertainty for temperature at 40 mu s resolution. Finally, the DCS spectral-fitting methodology was demonstrated to capture temperature and methane time-history evolution during the pyrolysis of iso-octane, a primary gasoline reference fuel. Good agreement was observed with kinetic models, and future applications for DCS kinetics research are discussed.

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来源
《Measurement Science & Technology》 |2021年第3期|共16页
作者
Pinkowski Nicolas H.; Cassady Sean J.; Strand Christopher L.; Hanson Ronald K.;
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作者单位

Stanford Univ 450 Serra Mall Stanford CA 94305 USA;

Stanford Univ 450 Serra Mall Stanford CA 94305 USA;

Stanford Univ 450 Serra Mall Stanford CA 94305 USA;

Stanford Univ 450 Serra Mall Stanford CA 94305 USA;

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原文格式 PDF
正文语种 eng
中图分类仪器、仪表;
关键词
dual-comb spectroscopy; shock tubes; kinetics; high temperatures; methane; iso-octane; thermometry;

机译：双梳理光谱;震动管;动力学;高温;甲烷;异辛烷;温度;

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Quantum-cascade-laser-based dual-comb thermometry and speciation at high temperatures

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