Carbon Dioxide Concentration Estimation in Nonuniform Temperature Fields Based on Single-Pass Tunable Diode Laser Absorption Spectroscopy

吸收光谱法 光谱学 可调谐激光吸收光谱技术 吸收(声学) 谱线 光路 激光器 计算物理学 分析化学(期刊) 化学 光学 二氧化碳 温度梯度 材料科学 温度测量 分子物理学 可调谐激光器 物理 热力学 有机化学 色谱法 量子力学 天文
作者
Junggon Choi,Cheolwoo Bong,Jihyung Yoo,Moon Soo Bak
出处
期刊:Applied Spectroscopy [SAGE Publishing]
卷期号:77 (10): 1194-1205 被引量:5
标识
DOI:10.1177/00037028231191782
摘要

We propose a novel technique to accurately predict carbon dioxide (CO 2 ) concentrations even in flow fields with temperature gradients based on a single laser path absorption spectrum measurement and machine learning. Concentration measurements in typical tunable diode laser absorption spectroscopy are based on a ratio of two integrated absorbances, each from a spectral line with different temperature dependence. However, the inferred concentrations can deviate significantly from the actual concentrations in the presence of temperature gradients. Furthermore, it is also difficult to find an analytical expression to compensate for the effect of nonuniform temperature profiles on concentration measurements. In this study, the entire absorption feature was considered since its shape and peak intensities vary with temperature and concentration. Specifically, a predictive model is obtained in a data-driven manner that can identify and compensate for the effect of a nonuniform temperature field on the spectrum. Despite a very detailed understanding of the CO 2 absorption spectrum, it is nearly impossible to collect sufficient spectra for model acquisition by varying all temperature gradient conditions. Therefore, the model was obtained using only simulated data, much like the concept of a “digital twin”. Finally, the predictive performance of the acquired model was verified using experimental data. In all test cases, the predictive performance of the model was superior to that of the two-line method. Additionally, a gradient-weighted regression activation mapping analysis confirmed that the model utilizes both the peak intensities as well as the change in the shape of absorption lines for prediction.
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