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    Journals >Opto-Electronic Engineering >Volume 51 >Issue 4 >Page 240022-1 > Article
    • Opto-Electronic Engineering
    • Vol. 51, Issue 4, 240022-1 (2024)
    Programmable gate array WM-TDLAS gas detection system design and application
    Xin Zhang, Haifeng Qiu, Jiaqi Lan, Qin Hu, and He Zhang*
    Author Affiliations
  • State Key Laboratory of High Power Semiconductor Laser, Changchun University of Technology, Changchun, Jilin 130022, China
    • show less
    DOI: 10.12086/oee.2024.240022 Cite this Article
    Xin Zhang, Haifeng Qiu, Jiaqi Lan, Qin Hu, He Zhang. Programmable gate array WM-TDLAS gas detection system design and application[J]. Opto-Electronic Engineering, 2024, 51(4): 240022-1 Copy Citation Text show less
    References

    [1] L W Zhu, W G Ma, J Hu et al. Advances of NIR spectroscopy technology applied in seed quality detection. Spectrosc Spect Anal, 35, 346-349(2015).

    [2] Z R Zhang, P S Sun, T Pang et al. Application of laser absorption spectroscopy for identification gases in industrial production processes and early safety warning. Opt Precision Eng, 26, 1925-1937(2018).

    [3] M F Zhao, P Tang, B Tang et al. Research on denoising of UV-vis spectral data for water quality detection with compressed sensing theory based on wavelet transform. Spectrosc Spect Anal, 38, 844-850(2018).

    [4] L Q Sun, M L Zou, X Wang. Application of tunable diode laser absorption spectroscopy in breath diagnosis. Chin J Lasers, 48, 1511001(2021).

    [5] Z K Guo, Y G Li, B C Yu et al. Research progress of lock-in amplifiers. Acta Phys Sin, 72, 224206(2023).

    [6] J F He, R F Kan, Z Y Xu et al. Derivative spectrum and concentration inversion algorithm of tunable diode laser absorption spectroscopy oxygen measurement. Acta Opt Sin, 34, 0430003(2014).

    [7] L Tao, K Sun, M A Khan et al. Compact and portable open-path sensor for simultaneous measurements of atmospheric N2O and CO using a quantum cascade laser. Opt Express, 20, 28106-28118(2012).

    [8] B T Deng, C Sima, Y F Xiao et al. Modified laser scanning technique in wavelength modulation spectroscopy for advanced TDLAS gas sensing. Opt Lasers Eng, 151, 106906(2021).

    [9] W Liang, G Wei, A He et al. A novel wavelength modulation spectroscopy in TDLAS. Inf Phys Tech, 114, 103661(2021).

    [10] S Bagchi, S SenGupta, S Mondal. Development and characterization of carbonic anhydrase-based CO2 biosensor for primary diagnosis of respiratory health. IEEE Sensors J, 17, 1384-1390(2017).

    [11] C G Li, L Dong, C T Zheng et al. Compact TDLAS based optical sensor for ppb-level ethane detection by use of a 3.34 μm room-temperature CW interband cascade laser. Sens Actuators B:Chem, 232, 188-194(2016).

    [12] Z Wang, Q Wang, J Y L Ching et al. A portable low-power QEPAS-based CO2 isotope sensor using a fiber-coupled interband cascade laser. Sens Actuators B:Chem, 246, 710-715(2017).

    [13] W Nie, R F Kan, C G Yang et al. Research progress on the application of tunable diode laser absorption spectroscopy. Chin J Lasers, 45, 0911001(2018).

    [14] S M Qu, M Wang, N Li. Mid-infrared trace CH4 detector based on TDLAS-WMS. Spectrosc Spect Anal, 36, 3174-3178(2016).

    [15] L Q Jia, X N Qi, W J Hu et al. Rapid nondestructive grading detection of maize seed vigor using TDLAS technique. Chin J Lasers, 46, 0911002(2019).

    [16] W L Ye, Z H Tu, X P Xiao et al. On multi-parameter influence of TDLAS detection system based on LabVIEW. J South China Univ Technol (Nat Sci Ed), 49, 141-148(2021).

    [17] A Huang, Z Cao, C R Wang et al. An FPGA-based on-chip neural network for TDLAS tomography in dynamic flames. IEEE Trans Instrum Meas, 70, 4506911(2021).

    [18] Y N Tang, S Y Li, C Liu et al. Process simulation and techno-economic analysis on novel CO2 capture technologies for fluid catalytic cracking units. Fuel Process Technol, 249, 107855(2023).

    [19] H J Luo, Z F Yang, R B Zhuang et al. Ppbv-level mid-infrared photoacoustic sensor for mouth alcohol test after consuming lychee fruits. Photoacoustics, 33, 100559(2023).

    [20] Y W Gao, Y J Zhang, D Chen et al. Measurement of oxygen concentration using tunable diode laser absorption spectroscopy. Acta Opt Sin, 36, 0330001(2016).

    [21] J Lee, T W Kim, C Lee et al. Integrated approach to evaluating the effect of indoor CO2 concentration on human cognitive performance and neural responses in office environment. J Manage Eng, 38, 04021085(2022).

    [22] J W Jia, W Li, H Chai et al. Gas detection technology algorithm based on TDLAS. Infrared Laser Eng, 48, 202-208(2019).

    [23] Z W Zhang, J Chang, J C Sun et al. Dual-beam antiphase method to improve the WMS measurement limit in long-distance methane detection. Appl Opt, 59, 8217-8223(2020).

    [24] W L Ye, L F He, Z K Xia et al. Miniaturized methane detection system based on photoacoustic spectroscopy. Microw Opt Technol Lett, 65, 1421-1426(2023).

    [25] X R Meng, H Q Chang, X Q Wang. Methane concentration prediction method based on deep learning and classical time series analysis. Energies, 15, 2262(2022).

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    Xin Zhang, Haifeng Qiu, Jiaqi Lan, Qin Hu, He Zhang. Programmable gate array WM-TDLAS gas detection system design and application[J]. Opto-Electronic Engineering, 2024, 51(4): 240022-1
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