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    Journals >Optoelectronic Technology >Volume 44 >Issue 2 >Page 145 > Article
    • Optoelectronic Technology
    • Vol. 44, Issue 2, 145 (2024)
    Research on Laser Telemetry Optical Path Matching for Methane Emission and Leakage in Station Space
    Yan LYU1, Shaoqing SHI1, Xianghui HAN2, Di WANG1,3..., Yushuang LI1, Mingji WANG1,4 and Yu PU3|Show fewer author(s)
    Author Affiliations
  • 1School of Physics and Electronic Engineering, Northeast Petroleum University, Daqing Heilongjiang 6338, CHN
  • 2Geological Research Institute of the Eighth Oil Production Plant of Daqing Oilfield Co Ltd, Daqing Heilongjiang 163318, CHN
  • 3School of Architecture and Civil Engineering, Northeast Petroleum University, Daqing Heilongjiang 1618, CHN
  • 4Quanzhou University of Information Engineering,Quanzhou Fuzhou 362008, CHN
    • show less
    DOI: 10.12450/j.gdzjs.202402011 Cite this Article
    Yan LYU, Shaoqing SHI, Xianghui HAN, Di WANG, Yushuang LI, Mingji WANG, Yu PU. Research on Laser Telemetry Optical Path Matching for Methane Emission and Leakage in Station Space[J]. Optoelectronic Technology, 2024, 44(2): 145 Copy Citation Text show less
    Schematic of TDLAS detection integral concentration
    Fig. 1. Schematic of TDLAS detection integral concentration
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    Leakage model and scanning detection scheme for leakage port 1
    Fig. 2. Leakage model and scanning detection scheme for leakage port 1
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    Leakage cloud map of leakage port 1 after 10 seconds under different working conditions(partial view)
    Fig. 3. Leakage cloud map of leakage port 1 after 10 seconds under different working conditions(partial view)
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    Detection value of leakage port 1 under different working conditions (The red line represents the lowest limit of laser detection)
    Fig. 4. Detection value of leakage port 1 under different working conditions (The red line represents the lowest limit of laser detection)
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    Leakage cloud map of leakage port 2 after 10 seconds under different working conditions(partial view)
    Fig. 5. Leakage cloud map of leakage port 2 after 10 seconds under different working conditions(partial view)
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    Detection value of leakage port 2 under different working conditions (The red line represents the lowest limit of laser detection)
    Fig. 6. Detection value of leakage port 2 under different working conditions (The red line represents the lowest limit of laser detection)
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    Leakage cloud map of leakage port 2 after 10 seconds under different working conditions(partial view)
    Fig. 7. Leakage cloud map of leakage port 2 after 10 seconds under different working conditions(partial view)
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    Detection value of leakage port 3 under different working conditions (The red line represents the lowest limit of laser detection)
    Fig. 8. Detection value of leakage port 3 under different working conditions (The red line represents the lowest limit of laser detection)
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    Abstract
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    Figures&Tables (8)
    Equations (6)
    References (7)
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    Yan LYU, Shaoqing SHI, Xianghui HAN, Di WANG, Yushuang LI, Mingji WANG, Yu PU. Research on Laser Telemetry Optical Path Matching for Methane Emission and Leakage in Station Space[J]. Optoelectronic Technology, 2024, 44(2): 145
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    Paper Information
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