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Laser Journal, Volume. 46, Issue 3, 84(2025)

Study on CO catalytic oxidation characteristics based on absorption spectroscopy measurement

ZHUANG Ke1, HE Shuanling2, XU Yun1, DONG Yuehong1, ZHANG Qian1, and PENG Zhimin2、*
Author Affiliations
  • 1National Key Laboratory of Low Carbon Intelligent Coal-fired Power Generation and Ultra Clean Emissions, National Energy Group Science and Technology Research Institute Co., Ltd, Nanjing 210023, China
  • 2State Key Laboratory of Power Systems, Department of Energy and Power Engineering, Tsinghua University, Beijing 100084, China
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    [3] [3] Wu J, Zhao X, Xue L, et al. Barrier effect of SiO2 shell over hollow CeO2/CuO@ SiO2 catalysts for broadening temperature window of total CO conversion[J]. Journal of Rare Earths, 2020, 38: 46-51.

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    [9] [9] Hodgkinson J, Smith R, Hob W O, et al. Non-dispersive infra - red (NDIR) measurement of carbon dioxide at 4.2 m in a compact and optically efficient sensor[J]. Sensors and Actuators B: Chemical, 2013, 186: 580-588.

    [10] [10] Hammerli J, Hermann J, Tollan P, et al. Measuring in situ CO2 and H2O in apatite via ATR-FTIR[J]. Contributions to Mineralogy and Petrology, 2021, 176(12): 105.

    [16] [16] Witzel O, Klein A, Meffert C, et al. VCSEL-based, highspeed, in situ TDLAS for in-cylinder water vapor measurements in IC engines[J]. Optics express, 2013, 21(17): 19951-65.

    [17] [17] Liang R, Wang F, Xue Q, et al. A Fourier-domain-based line shape recovery method used in direct absorption spectroscopy[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2022, 275: 121153.

    [18] [18] He Q, Dang P, Liu Z, et al. TDLAS-WMS based near-infrared methane sensor system using hollow-core photonic crystal fiber as gas-chamber[J]. Optical and Quantum Electronics, 2017, 49(3): 1-11.

    [19] [19] Du Y, Peng Z, Ding Y. Wavelength modulation spectroscopy for recovering absolute absorbance[J]. Optics express, 2018, 26(7): 9263-9272.

    [20] [20] Peng Z, Du Y, Ding Y. Highly Sensitive, Calibration-Free WM-DAS Method for Recovering Absorbance-Part I: Theoretical Analysis[J]. Sensors, 2020, 20(3): 681.

    [21] [21] Peng Z, Du Y, Ding Y. Highly Sensi-tive, Calibration-Free WM-DAS Method for Recovering Absorbance-Part II: Experimental Analysis[J]. Sensors, 2020, 20(3): 616.

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    ZHUANG Ke, HE Shuanling, XU Yun, DONG Yuehong, ZHANG Qian, PENG Zhimin. Study on CO catalytic oxidation characteristics based on absorption spectroscopy measurement[J]. Laser Journal, 2025, 46(3): 84

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    Paper Information

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    Received: Nov. 4, 2024

    Accepted: Jun. 12, 2025

    Published Online: Jun. 12, 2025

    The Author Email: PENG Zhimin (apspect@tsinghua.edu.cn)

    DOI:10.14016/j.cnki.jgzz.2025.03.084

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology