Domesticin-situ Analyzer of Greenhouse Gases with Fourier Transform Infrared Spectroscopy and its Primary Application in Atmospheric Background Observation

Xiaochun ZHANG; Qingli SONG; Yong CAO; Peng WANG; Dajiang YU; Mian WAMG; Min WEN

doi:10.3969/j.issn.1673-6141.2019.04.006

[1] Seinfeld J H, Pandis S N.Atmospheric Chemistry and Physics: from Air Pollution to Climate Change [M]. 2nd ed. USA: John Wiley & Sons Inc, 2006: 1026-1053.

[2] Tang Xiaoyan, Zhang Yuanhang, Shao Min.Atmospheric Environmental Chemistry [M]. 2nd ed. Beijing: Higher Education Press, 2006: 528-532(in Chinese).

[3] Ding Yihui.Climate Change [M]. Beijing: China Meteorological Press, 2010: 2-7(in Chinese).

[4] Wigley T M L. The Climate Change Commitment [J].Science, 2005, 307(5716): 1766-1769.

[5] Keeling C D, Whorf T P, Wahlen M,et al. Interannual extremes in the rate of rise of atmospheric carbon dioxide since 1980 [J]. Nature, 1995, 375(6533): 666-670.

[6] Barnola J M, Raynaud D, Korotkevich Y S,et al. Vostok ice core provides 160,000-year record of atmospheric CO2 [J]. Nature, 1987, 329: 408-414.

[7] Wang Mingxing, Zeng Qingcun. Carbon dioxide in the atmosphere―a review [J].Chinese Journal of Atmospheric Sciences, 1986, 10(2): 212-219(in Chinese).

[8] Ramanathan V, Cicerone R J, Kiehl J T,et al. Trace gas trends and their potential role in climate change [J]. Journal of Geophysical Research, 1985, 90: 5547-5566.

[9] Shen Yongping, Wang Guoya. Key findings and assessment results of IPCC WGI fifth assessment report [J].Journal of Glaciology and Geocryology, 2013, 35(5): 1068-1076(in Chinese).

[10] Stocker T F, Qin D,et al. IPCC, 2103: Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [M]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 1535 pp. 2013: 11-14.

[11] Qin Tianbao. The “Bottom-up” approach in the Paris Agreement and its enlightenment [J].Chinese Review of International Law, 2016(3): 64-76(in Chinese).

[12] Wang Shaowu, Luo Yong, Zhao Zongci,et al. Struggle for amelioration of global warming [J]. Progressus Inquisitiones De Mutatione Climatis, 2013, 9(1): 61-66(in Chinese).

[13] Wei Yiming, Fan Ying, Wang Yi,et al. Suggestions and solutions to carbon emissions in China [J]. Advances in Climate Change Research, 2006, 2(1): 15-20(in Chinese).

[14] Wen Yupu, Shao Zhiqing, Xu XiaoBin,et al. Preliminary study of atmospheric CO2 variations at Mt. Waliguan [J]. China Environmental Science, 1993, 13(6): 420-424(in Chinese).

[15] Zhou lingxi, Zhang Xiaochun, Hao Qingju,et al. Study of the background greenhouse gas observation [J]. Advances in Climate Change Research, 2006, 2(2): 63-67(in Chinese).

[16] Liu Lixin, Zhou Lingxi, Zhang Xiaochun,et al. The characteristics of atmospheric CO2 concentration variation of four national background stations in China [J]. Science in China: Series D Earth Sciences, 2009, 39(2): 222-228(in Chinese).

[17] Jia Xiaofang, Zhang Xiaochun, Zhao Yanan,et al. Comparative analysis of CO2 background concentration between China mainland and neighboring countries and regions [J]. Journal of Atmospheric and Environmental Optics, 2017, 12(2): 120-127(in Chinese).

[18] World Meteorological Organization/Global Atmosphere Watch. Global Atmosphere Watch Guide [R]. GAW Report No. 86 (WMO/ TD No.553). Geneva. 1993.

[19] Komhyr W D, Waterman L S, Taylor W R. Semiautomatic non-dispersive infrared analyzer apparatus for CO2 air sample analysis [J]. Journal of Geophysical Research: Oceans, 1983, 88(C2): 1315-1322.

[20] Zhang Xiaochun. The gas-chromatograph observation of atmosphere CO2 and CH4 background concentration [J]. Qinghai Meteorology, 1995(1): 13-19(in Chinese).

[21] Zhang Xiaochun, Zhao Yucheng, Nie Hong,et al. New NDIR observation system of atmosphere CO2 background concentration and analysis of measurement [J]. Qinghai Environmental, 1998, 8(4): 149-152(in Chinese).

[22] Fang Shuangxi, Zhou Lingxi, Zhang Fang,et al. Dual channel GC system for measuring background atmospheric CH4, CO, N2O and SF6 [J]. Acta Scientiae Circum Stantiae, 2010, 30(1): 52-59(in Chinese).

[23] Fang Shuangxi, Zhou Lingxi, Zang Kunpeng,et al. Measurement of atmospheric CO2 mixing ratio by cavity ring-down spectroscopy (CRDS) at the 4 background stations in China [J]. Acta Scientiae Circumstantiae, 2011, 31(3): 624-629(in Chinese).

[24] Liu Yingming, Wang Jian, Yu Dahai,et al. Review of integrated cavity output spectroscopy technology and its application [J]. Optical Instruments, 2009, 31(5): 87-91(in Chinese).

[25] Xia Lingjun, Liu Lixin, Zhou Lingxi,et al. Study on the in-situ measurement of greenhouse gas by an improved FTIR [J]. Environmental Sicence, 2013, 34(11): 4159-4164(in Chinese).

[26] Xu Liang, Liu Jianguo, Gao Minguang,et al. Monitoring and analysis of CO2 and CH4 using long path FTIR spectroscopy over Beijing [J]. Spectroscopy and Spectral Analysis, 2007, 27(5): 889-891(in Chinese).

[27] Han Xiangyu, Lu Zhaofang. Greenhouse effect and greenhouse gases monitoring [J].Analytical Instrumentation, 2011(6): 72-74(in Chinese).

[28] Wang Wei, Liu Bing, Li Jianjun,et al. Progress on in-situ monitoring methods of atmospheric greenhouse gases [J]. Environmental Engineering, 2015(6): 125-128(in Chinese).

[29] W.H. Steel. Interferometers without Collimation for Fourier spectroscopy [J].Journal of The Optical Society of America, 1964, 54(2):151-156

[30] Wang Mingzhi. The basic principle and its application of FTIR [J].Technology Wind, 2014(6): 112-113(in Chinese).

[31] Zhu Jun, Liu Wenqing, Liu Jianguo,et al. Quantitative gas analysis using Fourier transform infrared spectroscopy method [J]. Chinese Journal of Scientific Instrument, 2007, 28(1): 80-84(in Chinese).

[32] Xu Liang, Liu Jianguo, Gao Minguang,et al. Application of long open path FTIR system in ambient air monitoring [J]. Spectroscopy and Spectral Analysis, 2007, 27(3): 448-451(in Chinese).

[33] Zhou Lingxi, Xia Lingjun, Zang Kunpen,et al. Cavity ring-down spectroscopy system for measurement of atmospheric carbon dioxide : GB/T 34415-2017 [S].Beijing. China Quality and Standards Publishing & Media Co. Ltd. 2017.

[34] Wu Yanling, Ning Shangjun, Yu Dajiang,et al. Characteristics of CO2 concentrations and its variations at Longfengshan regional atmospheric background station in Northeast China [J]. Environmental Chemistry, 2015, 34(9): 1627-1632(in Chinese).

[35] World Meteorological Organization/Global Atmosphere Watch. 15th WMO/IAEA Meeting of Experts on Carbon Dioxide, Other Greenhouse Gases and Related Tracers Measurement Techniques (Jena, Germany, 7-10 September 2009) [R]. GAW Report No. 194(WMO/TD No. 1553). Geneva. 2011.

[36] Griffith D W T, Deutscher N M, Krummel,et al. The UOW FTIR trace gas analyser: comparison with loflo, agage and tank measurements at Cape Grim and Gaslab [R]. Baseline Atmospheric Program, Australia, 2010.

[37] Griffith D W T, Deutscher N M, Caldow C G R,et al. A Fourier transform infrared trace gas analyser for atmospheric applications [J]. Atmospheric Measurement Techniques Discussions, 2012, 5(3): 3717-3769.

[38] Esler M B, Griffith D W T, Wilson S R,et al. Precision trace gas analysis by FT-IR spectroscopy 1. simultaneous analysis of CO2, CH4, N2O and CO in air [J]. Analytical Chemistry, 2000, 72(1): 206-215.

[39] Hammer S, Griffith D W T, Konard G,et al. Assessment of multi-species in-situ FTIR for precise atmospheric greenhouse gas observation [J]. Atmospheirc Measurement Techniques Discussions, 2012, 5(3): 3645-3692.