Temperature Measurement of CO2 by Use of a Distributed-Feedback Diode Laser Sensor Near 2.0 μm

Chen Jiuying; Liu Jianguo; He Yabo; Xu Zhenyu; Li Han; Yao Lu; Yuan Song; Ruan Jun; He Junfeng; Kan Ruifeng

doi:10.3788/cjl201239.1108004

Journals >Chinese Journal of Lasers >Volume 39 >Issue 11 >Page 1108004 > Article

Chinese Journal of Lasers
Vol. 39, Issue 11, 1108004 (2012)

Temperature Measurement of CO₂ by Use of a Distributed-Feedback Diode Laser Sensor Near 2.0 μm

Chen Jiuying^*, Liu Jianguo, He Yabo, Xu Zhenyu, Li Han, Yao Lu, Yuan Song, Ruan Jun, He Junfeng, and Kan Ruifeng

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[in Chinese]

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DOI: 10.3788/cjl201239.1108004 Cite this Article Set citation alerts

Chen Jiuying, Liu Jianguo, He Yabo, Xu Zhenyu, Li Han, Yao Lu, Yuan Song, Ruan Jun, He Junfeng, Kan Ruifeng. Temperature Measurement of CO₂ by Use of a Distributed-Feedback Diode Laser Sensor Near 2.0 μm[J]. Chinese Journal of Lasers, 2012, 39(11): 1108004 Copy Citation Text

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Abstract

Temperature measurement is realized by scanning two absorption lines of CO2 using distributed-feedback diode laser near 2.0 μm. The fundamental of temperature measurement by tunable diode laser absorption spectroscopy (TDLAS) is introduced, and multi-line nonlinear fitting method is proposed. The experiment is carried out in a heated static quartz cell at normal pressure. Within the temperature range from 900 K to 1200 K, the difference between TDLAS and S-thermocouple is less than 8%. Relative error between measured line-strength at 5007.7874 cm-1 and the theoretical value is less than 14%. The result analysis can be useful for the further research on concentration and temperature measurement by a single diode laser.

Keywords

absorbance measurement temperature measurement tunable diode laser absorption spectroscopy

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