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Research on the measurement of CH4 concentration based on dual-band weighted combination model

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【作者】 李红莲李文铎闫相宇吕贺帅王帆方立德

【Author】 LI Honglian;LI Wenduo;YAN Xiangyu;Lü Heshuai;WANG Fan;FANG Lide;College of Quality and Technology Supervising, Hebei University;National and Local Joint Engineering Center of Measuring Instruments and Metrology Systems;

【通讯作者】 李红莲;

【机构】 College of Quality and Technology Supervising, Hebei UniversityNational and Local Joint Engineering Center of Measuring Instruments and Metrology Systems

【摘要】 A detection system based on supercontinuum laser absorption spectroscopy(SCLAS) technology was built up in this study. The absorption spectra of CH4 in different near-infrared bands were measured based on the SCLAS detection system. Under normal temperature and pressure, the absorption spectra of CH4 at different concentrations in the bands of 1 319—1 339 nm and 1 656—1 676 nm were measured. The linear models of CH4 concentrations in different bands were established. The fitting coefficient(R2) of the models were 0.995 7 and 0.996 1, respectively. In order to improve the concentration inversion ability of the model, the weight distribution of each model was determined by R2 and sum of squared error(SSE) to obtain a new combined model. The maximum relative error of the concentration inversion was reduced from 2.3% to 1.3%. The experimental results show the feasibility of applying the SCLAS technology to CH4 concentration measurement, and it also verifies that the dual-band combination model can improve the accuracy and stability of the CH4 concentration measurement.

【Abstract】 A detection system based on supercontinuum laser absorption spectroscopy(SCLAS) technology was built up in this study. The absorption spectra of CH4 in different near-infrared bands were measured based on the SCLAS detection system. Under normal temperature and pressure, the absorption spectra of CH4 at different concentrations in the bands of 1 319—1 339 nm and 1 656—1 676 nm were measured. The linear models of CH4 concentrations in different bands were established. The fitting coefficient(R2) of the models were 0.995 7 and 0.996 1, respectively. In order to improve the concentration inversion ability of the model, the weight distribution of each model was determined by R2 and sum of squared error(SSE) to obtain a new combined model. The maximum relative error of the concentration inversion was reduced from 2.3% to 1.3%. The experimental results show the feasibility of applying the SCLAS technology to CH4 concentration measurement, and it also verifies that the dual-band combination model can improve the accuracy and stability of the CH4 concentration measurement.

【关键词】 fittingapplyingbandssquaredinversionweightinggasesfinallycloserultraviolet
【基金】 supported by the Key Projects of Hebei Natural Science Foundation (No.E2017201142);the 2018 Ministry of Education"Chunhui Program"Cooperative Scientific Research Projects;the Postdoctoral Research Projects in Hebei Province (No.B2016003008);the Project Funded by Hebei Province to Introduce Overseas Students in 2021 (No.C20210312)
  • 【文献出处】 Optoelectronics Letters ,光电子快报(英文版) , 编辑部邮箱 ,2021年12期
  • 【分类号】TN249;TQ221.11;O657.38
  • 【下载频次】38
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