Issue 2, 2021

High-precision methane isotopic abundance analysis using near-infrared absorption spectroscopy at 100 Torr

Abstract

A near-infrared methane (CH4) sensor system for carbon isotopic abundance analysis was developed based on laser absorption spectroscopy (LAS). For good thermal stability, two CH4 absorption lines with a similar low-state energy level were selected to realize relative weak temperature dependence. Wavelet denoising (WD) was employed for a pre-treatment of the direct absorption spectral (DAS) signal to perform a preliminary suppression of high-frequency noise. Due to the abnormal 13CH4 profile caused by superimposition of multiple lines, two statistical analysis algorithms including linear regression and neural network prediction were respectively employed on the retrieval of molecule fractions instead of the traditionally used standard absorption line fitting method. Performance assessment and a comparison between the two methods were carried out. Compared with the concentration deducing method based on the maximum absorbance in rough data, the linear regression and the neural network prediction obtained a sensitivity enhancement by ∼2 times and ∼10 times, respectively. A simultaneous measurement of pressure and concentration was performed using the neural network, which indicated a good potential of the technique for multi-parameter analysis using a single LAS-based sensor system.

Graphical abstract: High-precision methane isotopic abundance analysis using near-infrared absorption spectroscopy at 100 Torr

Article information

Article type
Paper
Submitted
08 Aug 2020
Accepted
08 Nov 2020
First published
09 Nov 2020

Analyst, 2021,146, 698-705

High-precision methane isotopic abundance analysis using near-infrared absorption spectroscopy at 100 Torr

Z. Liu, C. Zheng, T. Zhang, Y. Zhang, Y. Wang and F. K. Tittel, Analyst, 2021, 146, 698 DOI: 10.1039/D0AN01588A

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