Abstract:A method of interference correction for nondispersive infrared multi-component gas analysis was described. According to the successive integral gas absorption models and methods, the influence of temperature and air pressure on the integral line strengths and linetype was considered, and based on Lorentz detuning linetypes, the absorption cross sections and response coefficients of H2O, CO2, CO, and NO on each filter channel were obtained. The four dimension linear regression equations for interference correction were established by response coefficients, the absorption cross interference was corrected by solving the multi-dimensional linear regression equations, and after interference correction, the pure absorbance signal on each filter channel was only controlled by the corresponding target gas concentration. When the sample cell was filled with gas mixture with a certain concentration proportion of CO, NO and CO2, the pure absorbance after interference correction was used for concentration inversion, the inversion concentration error for CO2 is 2.0%, the inversion concentration error for CO is 1.6%, and the inversion concentration error for NO is 1.7%. Both the theory and experiment prove that the interference correction method proposed for NDIR multi-component gas analysis is feasible.
孙友文,刘文清*,汪世美,黄书华,于晓曼 . NDIR多组分气体分析的干扰修正方法研究[J]. 光谱学与光谱分析, 2011, 31(10): 2719-2724.
SUN You-wen,LIU Wen-qing*,WANG Shi-mei,HUANG Shu-hua,YU Xiao-man . Research on the Method of Interference Correction for Nondispersive Infrared Multi-Component Gas Analysis . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(10): 2719-2724.
[1] Frey H Christopher, Rouphail Nagui M, Unal A, et al. Annual Meeting of Air&Waste Management Association, Held in Orlando, Florida, and Published by A&WMA, Pittsburgh, PA,2001. 7. [2] Kevin G Williams, Kim S Christensen. US PAT 5811812, 1998. [3] Dirk Appel, Gaston E Marzoratti, Shrikrishna H Nabar, et al. US PAT US/2009/0213380 A1, 2009. [4] Harold S Lessure, Satoru Simizu, Louis J Denes, et al. US PAT 5886348, 1999. [5] Andre Galais, Gerard Fortunato, Pierre Chavel. Applied Optics, 1985, 24(14): 2127. [6] ZHANG Hua,SHI Guang-yu(张 华,石广宇). Chinese Journal of Atmospheric Sciences(大气科学),2000,24(1):111. [7] ZHOU Xiu-ji,TAO Shan-chang,YAO Ke-ya(周秀骥,陶善昌,姚克亚). High Atmospheric Physics(高等大气物理学). Beijing:Atmosphere Press(北京:气象出版社),1991. 690. [8] DING Lei, LIU Wen-qing, ZHANG Yu-jun, et al(丁 蕾,刘文清,张玉钧,等). Chinese Journal of Quantum Electronics(量子电子学报), 2003, 20(4): 459. [9] CHEN Xiao-ning, LIU Jian-guo, SI Fu-qi, et al(陈晓宁,刘建国,司福祺,等). Journal of Atmospheric and Environmental Optics(大气与环境光学学报), 2007, 2(3): 207. [10] SI Fu-qi, LIU Jian-guo, LIU Wen-qing,et al(司福祺,刘建国,刘文清,等). Chinese Journal of Quantum Electronics(量子电子学报), 2004, 21(4): 425. [11] ZHAO Kai-hua, ZHONG Xi-hua(赵凯华,钟锡华). Optics(光学). Beijing: Peking University Press(北京:北京大学出版社), 1982. 258. [12] Wenger Ch, Champion J P, Boudon V. Journal of Quantitative Spectroscopy & Radiative Transfer, 2008, 109(16): 2697.
