基于化学发光–光解转化法的大气氮氧化物精确测量原理与数值修正

doi:10.13209/j.0479-8023.2023.057

北京大学学报自然科学版 ›› 2023, Vol. 59 ›› Issue (6): 991-1002.DOI: 10.13209/j.0479-8023.2023.057

基于化学发光–光解转化法的大气氮氧化物精确测量原理与数值修正

李泫, 陈仕意^†, 陆克定, 曾立民, 张远航

北京大学环境科学与工程学院, 环境模拟与污染控制国家重点联合实验室, 国家环境保护大气臭氧污染防治重点实验室, 北京 100871

收稿日期:2022-11-04 修回日期:2023-02-03 出版日期:2023-11-20 发布日期:2023-11-20
通讯作者: 陈仕意, E-mail: chenshiyi(at)pku.edu.cn
基金资助:
环境模拟与污染控制国家重点联合实验室(北京大学)自由探索课题(22Y03ESPCP)资助

Precise Measurement and Numerical Correction of Atmospheric Nitrogen Oxides Based on Photolytic Chemiluminescence

LI Xuan, CHEN Shiyi^†, LU Keding, ZENG Limin, ZHANG Yuanhang

State Joint Key Laboratory of Environmental Simulation and Pollution Control, State Environmental Protection Key Laboratory of Atmospheric Ozone Pollution Prevention and Control, College of Environmental Sciences and Engineering, Peking University, Beijing 100871

Received:2022-11-04 Revised:2023-02-03 Online:2023-11-20 Published:2023-11-20
Contact: CHEN Shiyi, E-mail: chenshiyi(at)pku.edu.cn

摘要/Abstract

摘要：

2017年夏季和冬季, 将两台自主研发的蓝光光解转化–化学发光法(BLC-PCL) NO_x分析仪与传统的钼转化法(MCL) NO_x分析仪(Thermo 42i-TL)进行同期性能对比实验, 详细阐述两种方法实现大气氮氧化物精确测量的原理, 并重点讨论PCL法测量结果的光化学零点、水汽和光化学干扰的数值修正方法。数据显示, 两种方法对NO的测量性能稳定(R²=0.994, 斜率为 0.98), MCL法对NO₂的测量比PCL法偏高25%~30%。干扰的修正结果表明, 观测期间水汽干扰可造成NO_x信号被低估0.2%~13.2%; 光化学干扰可导致NO信号被低估0~13.3%, 还可导致NO₂信号被高估0~8.8%。以上结果表明, 在NO_x的常规监测与数据处理中, 对上述干扰的修正非常必要, 为降低干扰, 需要谨慎地设计光解转化效率、管路停留时间以及管路湿度控制等相关参数。

关键词: 大气氮氧化物, 化学发光法, 精确测量, 数值修正

Abstract:

In summer and winter of 2017, two self-developed blue light converter-photolytic chemiluminescence (BLC-PCL) NO_x analyzers and a traditional molybdenum-chemiluminescence (MCL) NO_x analyzer (Thermo 42i-TL) were applied for atmospheric NO_x monitoring. A performance comparison experiment for BLC-PCL and MCL NO_x analyzers was carried out during the observation period, and the numerical correction methods for possible interferences was discussed in detail. Results show that the two methods have stable measurement performance for NO (R²=0.994, slope is 0.98). The measurement of NO₂ by MCL is 25%–30% higher than that of PCL. Notably, water vapor interference can cause the NO_x signals to be underestimated by 0.2%–13.2%; photochemical interferences can lead to an underestimation of NO by 0–13.3% and an overestimation of NO₂ by 0–8.8%. These results highlight the necessity of numerical correction of such interferences and the importance to carefully design related parameters such as photolysis efficiency, pipeline residence time, and pipeline humidity control.

Key words: atmospheric nitrogen oxides (NOx), chemiluminescence, precise measurement, numerical correction

李泫, 陈仕意, 陆克定, 曾立民, 张远航. 基于化学发光–光解转化法的大气氮氧化物精确测量原理与数值修正[J]. 北京大学学报自然科学版, 2023, 59(6): 991-1002.

LI Xuan, CHEN Shiyi, LU Keding, ZENG Limin, ZHANG Yuanhang.

Precise Measurement and Numerical Correction of Atmospheric Nitrogen Oxides Based on Photolytic Chemiluminescence

[J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2023, 59(6): 991-1002.

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链接本文: https://xbna.pku.edu.cn/CN/10.13209/j.0479-8023.2023.057

https://xbna.pku.edu.cn/CN/Y2023/V59/I6/991

基于化学发光–光解转化法的大气氮氧化物精确测量原理与数值修正

Precise Measurement and Numerical Correction of Atmospheric Nitrogen Oxides Based on Photolytic Chemiluminescence

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