| 光谱学与光谱分析 |
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| Fiber Monitoring Network of Methane Concentration Based on Space Division Multiplexing in Coal Mine |
| ZHANG Ji-long1, 2, WANG Peng2, WANG Zhi-bin1, 2, LI Xiao1, 2*, WANG Zhi-wen2 |
1. National Key Laboratory of Science and Technology on Electronic Test and Measurement, Taiyuan 030051, China
2. Engineering Technology Research Center of Shanxi Province for Opto-Electronic Information and Instrument, North University of China, Taiyuan 030051, China |
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Abstract Methane explosion accidents occur frequently, and accurate and real-time detection and early warning of methane concentration are the effective means of preventing these accidents. The research was based on the spectrum absorption properties of methane, and a near-infrared tunable DFB laser diode of 1.65 μm wave band was used. With the mode-hopping features of laser diode, a differential absorption of double-wavelength and single-fiber optical sensor network was designed. Sixteen methane sensors were multiplexed in this system with space division multiple access technology and optical switch, and the key technologies of anti-dust in gas absorption cell were researched. All signals were gathered by the PCI data acquisition card,and information of each way was analyzed and displayed with virtual instrument. The results of experiment show that the method can reach the sensitivity of 0.05% even without using a phase-locked amplifier and the absorption light path is only 10 centimeters. Long-time accuracy and stability of all sensors could meet the practical demands, and the response time of each sensor was less than 1 seconds. With the replacement of lasers, the network can be used for the real-time detection of other gases.
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Received: 2009-08-02
Accepted: 2009-11-06
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Corresponding Authors:
LI Xiao
E-mail: lixiaoydx@163.com
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[1] XIE Bao-wei, LI Guo-bin(谢宝卫,李国斌). Safety in Coal Mines(煤矿安全),2002,33(3):54.
[2] ZHANG Yu, WANG Yi-ding, LI Li, et al(张 宇,王一丁,李 黎, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2008,28(11):2515.
[3] Schfer S, Mashni M, Sneider J, et al. Appl. Phys. B66, 1998, 66: 511.
[4] Son Young-Ho, Jung Woo-Chul, Jeong Jae-In. Journal of the Korean Physical Society, 2001, 39(4): 713.
[5] XU Zhen-feng, ZHANG Yue, LI Xiao, et al(徐振峰,张 悦,李 晓,等). Instrument Technique and Sensor(仪表技术与传感器),2007, (4): 61.
[6] Gharavi Mohammadreza,Buckley Steven G. Journal of Molecular Spectroscopy,2005,229: 78.
[7] WANG Yu-tian, LI Xiao-xin, LIU Zhan-wei, et al(王玉田,李晓昕,刘占伟,等). Opto-Electronic Engineering(光电工程),2004, 31(6): 21.
[8] Gladyshev A V,Belovolov M I,Vasiliev S A. Spectrochimica Acta Part A,2004,60: 3337.
[9] Acsente T. Romanian Reports in Physics, 2007, 59: 87.
[10] Weldon V. Electronics Letters,1993,29(6): 560.
[11] Marth Phillp A. Chem. Soc. Rev., 2002, 31: 201.
[12] Isek Takaya, Tai Hideo, Kimura Kiyoshi. Measurement Science and Technology, 2000, 11: 594.
[13] Simpson T B. Optics Communications,2003,215: 135.
[14] McGettrick Andrew James, Duffin Kevin, Johnstone Walter, et al. Journal of Lightwave Technology, 2008, 26(4):432.
[15] Stewart G, Tandy C, Moodie D, et al. Sensors and Actuators B, 1998, 51:227.
[16] Massie Crawford,Stewart George. Sensors and Actuators B,2006,113:830.
[17] Culshaw B,Stewart G,Dong F. Sensors and Actuators B,1998,51: 25.
[18] DU Hong-yan,HE Shu-kun,YIN Shu-yuan(杜红彦,赫淑坤,尹姝媛). Journal of Hebei Institute of Architectural Science & Technology(河北建筑科技学院学报),2000,17(1):76.
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