Calibration-free method of recovering the time-varying absorbance profile in TDLAS by the Fourier reconstructed spectroscopy

IF 5.2 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Measurement Pub Date : 2025-05-08 DOI:10.1016/j.measurement.2025.117771

Youquan Yang , Zhimin Peng , Dao Zheng , Yanjun Ding , Yanjun Du

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引用次数: 0

Abstract

Traditional scan-direct absorption spectroscopy (scan-DAS) is susceptible to 1/f noise, limiting its ability to realize high signal-to-noise ratio (SNR) measurements. This study proposes a calibration-free and noise-immune method, named fast scan–Fourier reconstructed spectroscopy (FC-FRS), capable of improving the SNR of the single-shot absorbance spectrum and reconstructing the time-varying absorbance without decreasing the time resolution. Two validation experiments with CO₂ absorbance varying over time were designed using a shock tube device within the millisecond time duration. In the first validation experiment, CO₂ was gradually released during the combustion of hydrocarbons, resulting in the slowly increased CO₂ absorbance. The average spectral SNR of FC-FRS reconstructed absorbance at 2100 K reached 73.51, which increased by 22.83 % compared to the original scan-DAS spectrum. The CO₂ generation profile extracted from the recovered absorbance agreed well with the prediction of kinetic mechanisms. In the second experiment where the CO₂ absorbance was stable behind the reflected shock at 1312 K, the average spectral SNR of the recovered absorbance line behind the reflected shock was 433.81, which is 44 % higher than that of the scan-DAS spectrum. The averaged fitted line strength from the recovered absorbance curve had a relative error of only 1.07 % compared to the HITAN2020 database. Finally, the proposed method was compared with the 2f/1f method of scan-WMS in a static CO measurement experiment, the FC-FRS showed the similar SNR but better stability over time.

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傅立叶重建光谱法恢复TDLAS中时变吸光度曲线的免校准方法

传统的扫描-直接吸收光谱（scan-DAS）容易受到1/f噪声的影响，限制了其实现高信噪比（SNR）测量的能力。本研究提出了一种无需校准和抗噪声的快速扫描傅立叶重建光谱（FC-FRS）方法，该方法能够在不降低时间分辨率的情况下提高单次吸光度光谱的信噪比并重建时变吸光度。利用激波管装置设计了两个CO2吸光度随时间变化的验证实验，实验时间为毫秒级。在第一个验证实验中，碳氢化合物在燃烧过程中逐渐释放CO2，导致CO2吸光度缓慢增加。FC-FRS在2100 K处重建吸光度的平均谱信噪比达到73.51，比原始扫描- das谱提高了22.83%。从恢复吸光度中提取的CO2生成剖面与动力学机理预测吻合较好。在1312 K时CO2吸光度稳定在反射激波后的第二个实验中，反射激波后恢复吸光度线的平均谱信噪比为433.81，比扫描- das谱高44%。与HITAN2020数据库相比，恢复吸光度曲线的平均拟合线强度相对误差仅为1.07%。最后，在静态CO测量实验中，将该方法与扫描- wms的2f/1f方法进行了比较，结果表明，FC-FRS具有相似的信噪比，但随着时间的推移稳定性更好。

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来源期刊

Measurement 工程技术-工程：综合

CiteScore

10.20

自引率

12.50%

发文量

1589

审稿时长

12.1 months

期刊介绍： Contributions are invited on novel achievements in all fields of measurement and instrumentation science and technology. Authors are encouraged to submit novel material, whose ultimate goal is an advancement in the state of the art of: measurement and metrology fundamentals, sensors, measurement instruments, measurement and estimation techniques, measurement data processing and fusion algorithms, evaluation procedures and methodologies for plants and industrial processes, performance analysis of systems, processes and algorithms, mathematical models for measurement-oriented purposes, distributed measurement systems in a connected world.