Abstract
A compact, sensitive laser-based absorption sensor for multispecies monitoring of methane (CH4), acetylene (C2H2) and ammonia (NH3) was developed using a compact multipass gas cell. The gas cell is 8.8 cm long and has an effective optical path length of 3.0 m with a sampling volume of 75 mL. The sensor is composed of three fiber-coupled distributed feedback lasers operating near 1512 nm, 1532 nm and 1654 nm, an InGaAs photodetector and a custom-designed software for data acquisition, signal processing and display. The lasers were scanned over the target absorption features at 1 Hz. First-harmonic-normalized wavelength modulation spectroscopy (f = 3 kHz) with the second harmonic detection (WMS-2f/1f) is employed to eliminate the unwanted power fluctuations of the transmitted laser caused by aerosol/particles scattering, absorption and beam-steering. The multispecies sensor has excellent linear responses (R2 > 0.997) within the gas concentration range of 1–1000 ppm and shows a detection limit of 0.32 ppm for CH4, 0.16 ppm for C2H2 and 0.23 ppm for NH3 at 1 s response time. The Allan–Werle deviation analysis verifies the long-term stability of the sensor, indicating a minimal detection limit of 20–34 ppb were achieved after 60–148 s integration time. Flow test of the portable multispecies sensor is also demonstrated in this work.
Highlights
Accurate knowledge of trace gas concentration is crucial for inflammable, explosive and poisonous gas leakage warning [1], medical breath diagnostics [2], environmental monitoring [3,4,5] and active control of combustion and propulsion systems [6,7]
First-harmonic-normalized wavelength modulation spectroscopy with the second harmonic detection (WMS-2f /1f ) was used for sensitive detection of multiple species
The multipass cell filled with a gas mixture sample of 100 ppm CH4, 100 ppm C2 H2 and 100 ppm NH3 was used for searching the optimal modulation parameters by varying the peak-to-peak voltage of the sinusoidal modulation signal
Summary
Wei Duan 1 , Fuwu Yan 1 , Yu Wang 1,2 , Hui Zhang 3 , Liuhao Ma 1,3, * , Daxin Wen 1 , Wei Wang 1 , Gang Sheng 1 and Qiang Wang 3, *. Academic Editors: Xue Wang, Xinyu Li, Liang Ren, Qi Zhou, Jikui (Jack) Luo, Lei Zhang, He Tian, Hongwei Liu, Aiguo Song and. Hubei Key Laboratory of Advanced Technology for Automotive Components, School of Automotive. Key Laboratory of Power Machinery and Engineering of Ministry of Education, Shanghai Jiao Tong University, Shanghai 200240, China
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