Acta Photonica Sinica, Volume. 53, Issue 10, 1053410(2024)
Monitoring of Multi-component Gas Concentration in Coal Mine Based on TDLAS Technology(Invited)
[1] Yan WANG, Kun NI, Chen WANG. Analysis of the current situation and trends of supply and demand development in the world coal market. Coal Economy Research, 43, 4-12(2023).
[2] Maoning GUO. Research on ethylene concentration detection system based on TDLAS technology(2019).
[3] Yanyan CUI. Research on acetylene absorption spectroscopy detection technology based on near infrared DFB laser(2023).
[4] Jingjing PENG. Research on methane gas detection system based on TDLAS technology(2023).
[5] Ruyue CUI. Development and application of high sensitivity gas sensing technology based on a new folding path optical absorption cell(2023).
[6] Wei NIE. Research on TDLAS detection method for dew point/frost point in extremely low temperature environments(2019).
[7] J SUN, J CHANG, Y ZHANG et al. CH4/C2 H6 dual gas sensing system using a single mid-infrared laser. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 291, 122368-122375(2023).
[8] J REID, D LABRIE. Second-harmonic detection with tunable diode-lasers—comparison of experiment and theory. Applied Physics B, 26, 203-210(1981).
[9] P KLUCZYNSKI, O AXNER. Theoretical description based on Fourier analysis of wavelength-modulation spectrometry in terms of analytical and background signals. Applied Optics, 38, 5803-5815(1999).
[10] L M GOLSTON, L TAO, C BROSY et al. Lightweight mid-infrared methane sensor for unmanned aerial systems. Applied Physics B, 123, 170(2017).
[11] Liangquan JIA, Xiangnian QI, Wenjun HU et al. Rapid nondestructive gradingdetection of maize seed vigor using TDLAS technique. Chinese Journal of Lasers, 46, 0911002(2019).
[12] A ABDULAZIZ, A SAMEH, G KHALED et al. Detection of nitrogen dioxide with tunable multimode blue diode Lasers. Applied Physics B, 127, 6(2021).
[13] W WENG, J LARSSON, J BOOD et al. Quantitative hydrogen chloride detection in combustion environments using tunable diode laser absorption spectroscopy with comprehensive investigation of hot water interference. Applied Spectroscopy, 76, 207-215(2022).
[14] C DAVIS. 光纤传感器技术手册(1987).
[15] Honghu ZHU, Jia WANG, Houzhi LI et al. Association rule analysis for giant landslide deformation of the three gorges reservoir region based on data mining. Journal of Engineering Geology, 30, 1517-1527(2022).
[16] Pingsong ZHANG, Dan ZHANG, Binyang SUN et al. Optical fiber monitoring technology for evolution characteristic of rock stratum deformation and stratum deformation and failure in space of mining field. Journal of Engineering Geology, 27, 260-266(2019).
[17] Gongyu HOU, Tao HU, Guicheng XU et al. Coal mine roadway roof monitoring system based on distributed optical fiber technology. Industry and Mine Automation, 46, 1-6(2020).
[18] Teng LI. Analysis of toxic gases and goaf prevention and control technology in coal mine working faces. Mining Equipment, 63-65(2023).
[19] Jincheng WANG, Yuntao LIANG, Fuchao TIAN. Research status and application of TDLAS gas detection technology in coal mines. Coal Mine Safety, 53, 98-102(2022).
[20] Xuan LI. Application research of fiber optic gas sensors in coal mining. Shaanxi Coal, 41, 121-123(2022).
[21] Di YU. Research on near infrared methane and carbon monoxide gas detection system for mining(2022).
[22] Mengru ZHANG. Development of CH4 gas sensing system using micro chambers(2023).
[23] Fuhai ZHU. Methane gas detection based on tunable lasers and deep learning(2023).
[24] Weilin YE, Zihan TU, Xupeng XIAO et al. Study on the multi parameter influence of TDLAS detection system based on LabVIEW. Journal of South China University of Technology, 49, 141-148(2021).
[25] Yanan FENG, Lifu LIU, Shaochang LIANG et al. Research and application of atmospheric trace CO monitoring based on TDLAS technology. Journal of China University of Metrology, 34, 379-388(2023).
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Xiaoliang SHEN, Lanxi HU, Yanxu GAO, Lie LIN. Monitoring of Multi-component Gas Concentration in Coal Mine Based on TDLAS Technology(Invited)[J]. Acta Photonica Sinica, 2024, 53(10): 1053410
Category: Special Issue for“the 40th Anniversary of Institute of Modern Optics Nankai University”
Received: Jun. 28, 2024
Accepted: Oct. 9, 2024
Published Online: Dec. 5, 2024
The Author Email: LIN Lie (linlie@nankai.edu.cn)