Quartz-Enhanced Photoacoustic Spectroscopy (QEPAS) detection of the v7 band of ethylene at low pressure with CO2 interference analysis
Publication in refereed journal


摘要Ethylene (C2H4) was detected using quartz-enhanced photoacoustic spectroscopy (QEPAS) at 10.5 µm with a continuous wave, distributed-feedback quantum cascade laser as the light source. The QEPAS sensor was operated at low pressures (≤200 torr) to eliminate the cross-talk spectral interference between C2H4 and CO2, a major interfering species in practical applications. The sensor was calibrated to show a good linear response to C2H4 concentration and the Allan deviation analysis demonstrated a minimum detection limit of 8 ppb at an integration time of 90 s. Although no spectral overlap between C2H4 and CO2 was confirmed at the pressure ≤200 torr by the direct absorption measurement using a 28-m multipass cell, we observed the apparent influence of the CO2 addition to the C2H4/N2 mixture on the photoacoustic signal of C2H4. An energy transfer model involving the vibration–vibration (VV) and vibration–translation (VT) transitions in the C2H4–CO2–N2 system was constructed to interpret the experimental data. Additionally, the vibrational relaxation times of C2H4 were obtained based on the QEPAS technique and the energy transfer model, which were in good agreement with the previous studies.
著者Zhen Wang, Jian Geng, Wei Ren
期刊名稱Applied Spectroscopy
頁次1834 - 1841
關鍵詞Photoacoustic spectroscopy, ethylene, vibrational relaxation

上次更新時間 2021-06-12 於 00:52