Simulated reaction of formaldehyde and ambient atmospheric particulate matter using a chamber

The reaction of HCHO with Beijing winter's real ambient particulate matter (PM) inside a 3.3 m3 Teflon Chamber was conducted in this study. NO2, OB and H20 gases were removed from the ambient aerosol before entering into the chamber. The decays of HCHO were monitored (acetylacetone spectrophotometry...

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Bibliographic Details
Published in:Journal of environmental sciences (China) 2017-06, Vol.56 (6), p.45-51
Main Authors: Chen, Yueyue, Liu, Jia, Shang, Jing, Zhu, Tong
Format: Article
Language:English
Subjects:
Air Pollutants - analysis
Atmosphere - chemistry
Beijing
Chamber
Environmental Monitoring - instrumentation
Formaldehyde
Formaldehyde - analysis
Formate
Particulate matter
Particulate Matter - analysis
Volatile organic compounds
乙酰丙酮分光光度法
反应过程
大气颗粒物
室内模拟
技术检测
甲醛
相对湿度
衰减率
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Summary:The reaction of HCHO with Beijing winter's real ambient particulate matter (PM) inside a 3.3 m3 Teflon Chamber was conducted in this study. NO2, OB and H20 gases were removed from the ambient aerosol before entering into the chamber. The decays of HCHO were monitored (acetylacetone spectrophotometry method) during the reactions at different PM number concentrations (Na) and relative humidities (RHs), and the formed particulate formate was detected by IC and XPS techniques. The results showed that when RH was 10%-15%, the decay rate of HCHO in the chamber was higher with the existence of PM from relatively clean days (with number concentration (Na) 〈 200,000 particle/L, 0.35-22.5 μm) compared to dirty days (Na 〉 200,000 particle/L, 0.35-22.5 μm). When RH increased to 30%- 45%, PM can hardly have significant influences on the decay of HCHO. The formations of formate on the reacted PM were consistent with the HCHO decay rates at different ambient PM Na and RH conditions. This is a first study related to the "real" ambient PM reacted with HCHO and suggested that in the clean and low RH days, PM could be an effective medium for the conversion of HCHO to formate.
ISSN:1001-0742
1878-7320
DOI:10.1016/j.jes.2016.08.018