Litcius/Paper detail

A multiline fitting method for measuring ethylene concentration based on WMS-2f/1f

Xiaogang Wang, Bo Yang, H. F. Liu, Ling Ren, D. He, Xiuchen Zhao, J. Li

2023Scientific Reports15 citationsDOIOpen Access PDF

Abstract

Abstract Coal spontaneous combustion risk assessment is a global technical challenge for the sustainable development of deep mining technology, and C 2 H 4 is a key indicator for early warning of coal spontaneous combustion. Tunable diode laser absorption spectroscopy (TDLAS) has the advantages of high selectivity, high sensitivity, high accuracy and real-time on-line measurement, and it can detect multiple gases simultaneously, so it has significant advantages in the accurate detection of coal spontaneous combustion indicator gases. To address the problem of cross-interference between the near-infrared absorption lines of CH 4 and C 2 H 4 , which are the indicator gases of spontaneous combustion in coal, a multi-line fitting method was proposed in this study to calibrate the concentration of C 2 H 4 . The high-precision Environics2000 automatic standard gas dispenser from the United States, which has a built-in CPU computer control and data control and processing system, was used. Its gas concentration accuracy: ± 1.0%, gas flow accuracy: ± 1.0%, gas repeatability accuracy: ± 1.0%, flow linearity accuracy: ± 0.5%, and inlet operating pressure: minimum 10 psig (0.67 bar) ~ 75 psig (5.04 bar). The measured and simulated WMS-2f/1f signals were multilinearly fitted using a multilinear fitting algorithm and wavelength modulation spectroscopy (WMS), and the measurement of C 2 H 4 concentration was achieved based on the extracted spectral line information. The results show that the maximum relative error of C 2 H 4 concentration measurement is 2.40%, which is 54% lower than that of the conventional 2f peak measurement method, thus demonstrating the effectiveness of the multilinear fitting algorithm in the inversion of C 2 H 4 concentration under the interference of absorption lines. In addition, this study has far-reaching implications for the application of TDLAS technology in the accurate detection of coal spontaneous combustion indicator gases.

Topics & Concepts

EthyleneComputer scienceChemistryBiochemistryCatalysisAdvanced Chemical Sensor TechnologiesSpectroscopy and Laser ApplicationsWater Quality Monitoring and Analysis