Photoacoustic trace gas detection of ethylene in high-concentration methane background based on dual light sources and fiber-optic microphone

Photoacoustic trace gas detection of ethylene in high-concentration methane background based on dual light sources and fiber-optic microphone

•An all-optical PA system based on dual light sources and a FOM.•Trace gas detection of ethylene in high-concentration methane background.•A lock-in WLI based demodulator was developed for detection of 1f and 2f PA signal.•The detection limit of ethylene reached 200 ppb over a range of 0–100% methan...

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Veröffentlicht in:Sensors and actuators. B, Chemical Chemical, 2020-05, Vol.310, p.127825-7, Article 127825
Hauptverfasser: Chen, Ke, Zhang, Bo, Guo, Min, Chen, Yewei, Deng, Hong, Yang, Beilei, Liu, Shuai, Ma, Fengxiang, Zhu, Feng, Gong, Zhenfeng, Yu, Qingxu
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Sprache:eng
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Demodulators
Dual light sources
Emitters
Ethylene
Fiber optics
Fiber-optic
Gases
Infrared lasers
Light sources
Methane
Multi-gas analysis
Optical fibers
Photoacoustic spectrometer
Sensor
Thermal radiation
Time division multiplexing
Trace gas detection
Trace gases
White light interferometry
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container_issue
container_start_page 127825
container_title Sensors and actuators. B, Chemical
container_volume 310
creator Chen, Ke
Zhang, Bo
Guo, Min
Chen, Yewei
Deng, Hong
Yang, Beilei
Liu, Shuai
Ma, Fengxiang
Zhu, Feng
Gong, Zhenfeng
Yu, Qingxu
description •An all-optical PA system based on dual light sources and a FOM.•Trace gas detection of ethylene in high-concentration methane background.•A lock-in WLI based demodulator was developed for detection of 1f and 2f PA signal.•The detection limit of ethylene reached 200 ppb over a range of 0–100% methane concentration background. An all-optical photoacoustic (PA) system for trace gas detection of ethylene (C2H4) in high-concentration methane (CH4) background has been developed based on dual light sources and fiber-optic microphone (FOM). C2H4 was measured by an infrared thermal radiation emitter. To eliminate the interference of high-concentration CH4 gas, a near-infrared laser source is used to measure the concentration of CH4 for self-correction. Light from the two sources was incident from both ends of the non-resonant PA cell, respectively. The concentration of the two gases was measured by time division multiplexing. The generated PA pressure signal was detected by a fiber-optic Fabry-Perot microphone, which was demodulated by a high-speed spectrometer. A lock-in white-light interferometry (WLI) based demodulator was developed for ultra-high sensitivity detection of 1f and 2f PA signal. Experimental results showed that the detection limit of C2H4 reached 200 ppb over a range of 0–100 % CH4 concentration background.
doi_str_mv 10.1016/j.snb.2020.127825
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An all-optical photoacoustic (PA) system for trace gas detection of ethylene (C2H4) in high-concentration methane (CH4) background has been developed based on dual light sources and fiber-optic microphone (FOM). C2H4 was measured by an infrared thermal radiation emitter. To eliminate the interference of high-concentration CH4 gas, a near-infrared laser source is used to measure the concentration of CH4 for self-correction. Light from the two sources was incident from both ends of the non-resonant PA cell, respectively. The concentration of the two gases was measured by time division multiplexing. The generated PA pressure signal was detected by a fiber-optic Fabry-Perot microphone, which was demodulated by a high-speed spectrometer. A lock-in white-light interferometry (WLI) based demodulator was developed for ultra-high sensitivity detection of 1f and 2f PA signal. 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subjects Demodulators
Dual light sources
Emitters
Ethylene
Fiber optics
Fiber-optic
Gases
Infrared lasers
Light sources
Methane
Multi-gas analysis
Optical fibers
Photoacoustic spectrometer
Sensor
Thermal radiation
Time division multiplexing
Trace gas detection
Trace gases
White light interferometry
title Photoacoustic trace gas detection of ethylene in high-concentration methane background based on dual light sources and fiber-optic microphone
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