Study on Large-Scale Regional Laser Detection Methods for Water Vapor Concentration
HE Ying1, ZHANG Yu-jun1, WANG Li-ming1, YOU Kun1, ZHOU Yi1, SUN Xiao-min2, LIU Zhen-min2
1. Key Lab of Environmental Optics and Technology, Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 230031, China 2. Key Lab of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China
Abstract:Water vapor is an important meteorological parameter in the atmosphere, TDLAS direct absorption technology combined with open-path monitoring was used in order to achieve large-scale regional atmospheric water vapor concentration detection with high sensitivity, high accuracy and fast response, and to correct the remote sensing data. The large-scale regional laser detection system for water vapor was designed and the absorption line of water vapor molecules near 1.27 μm was chosen as the goal line. The system performance was verified in conjunction with a multiple reflection cell, that the system limit sensitivity was 14.803 mmol·mol-1 in optical path of 40 m. The continuous field experiment in 1 420 m optical path at the Yucheng Integrated Experimental Station, CAS was completed with this system which worked stably. Then the measured data was compared with the data of a gas analyzer LI-7500 in eddy correlation observation system at the same site, and the data consistency was good. A new method for water vapor concentration monitoring in the complex field of non-uniform underlying surface was provided.
Key words:Laser absorption spectroscopy;Open-path;H2O;Large-scale region
何 莹1,张玉钧1,王立明1,尤 坤1,周 毅1,孙晓敏2,刘振民2 . 大尺度区域水汽浓度激光检测方法的研究 [J]. 光谱学与光谱分析, 2013, 33(03): 608-612.
HE Ying1, ZHANG Yu-jun1, WANG Li-ming1, YOU Kun1, ZHOU Yi1, SUN Xiao-min2, LIU Zhen-min2 . Study on Large-Scale Regional Laser Detection Methods for Water Vapor Concentration . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2013, 33(03): 608-612.
[1] Gao B C, Geotz A F H. Journal of Geophysical Res.,1990, 95: 3549. [2] WANG Wei-min, SUN Xiao-min,ZHANG Ren-hua, et al(王伟民,孙晓敏,张仁华,等). Journal of Remote Sensing(遥感学报), 2005, 9(1):8. [3] GENG Xiang, CHEN Bin, ZHU Wen-jing,et al(耿 响,陈 斌,朱文静,等). Acta Optica Sinica(光学学报), 2009, 29(12): 3551. [4] TAN Zhong-qi, LONG Xing-wu, HUANG Yun, et al(谭中奇,龙兴武,黄 云,等). Chinese Lasers(中国激光), 2008, 35(10): 1563. [5] Chen W, Przygozki C, Delbarre H, et al. Infrared Physics & Technology, 1998, 39(6): 415. [6] XIE Chen-bo, ZHOU Jun, YUE Gu-ming, et al(谢晨波,周 军,岳古明,等). Infrared and Laser Engineering(红外与激光工程),2007, 36(3): 365. [7] Kan R F, Liu W Q, Zhang Y J, et al. Chinese Optics Letters, 2006, 4(2):116. [8] Barbu T Le, Vinogradov I, Durry G, et al. Advances in Space Research, 2006, 38: 718. [9] Allen M G. Meas. Sci. Technol.,1998, 9(4): 545. [10] Rothman L S, Jacquemart D, Barbe A, et al. Journal of Quantitative Spectrosc. Radiat. Transfer.,2005, 96(2): 139. [11] Sun L, Shen B Z, Sui B. Advances in Atmospheric Sciences, 2010, 27(6): 1399. [12] LIU Hui-zhi, TU Gang, DONG Wen-jie, et al(刘辉志,涂 钢,董文杰,等). Chinese Journal of Atmospheric Sciences(大气科学),2006, 30(1): 108.