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Impact of Air Humidity Fluctuation on the Rise of PM Mass Concentration Based on the High-Resolution Monitoring Data
Liyuan Zhang1, Yan Cheng1, Yue Zhang1, Yuanping He1, Zhaolin Gu1, Chuck Yu1,2
1 School of Human Settlements and Civil Engineering, Xi’an Jiaotong University, Xi’an 710049, China
2 International Society of the Built Environment (ISBE), Milton Keynes, UK
- The early stage of aerosol pollution are divided into two modes.
- Two modes of aerosol rise result in pollution of different degrees.
- The fluctuation of air humidity is significant to the aerosol rise.
Hourly particulate matter mass concentrations and meteorological parameters, recorded by the China National Environmental Monitoring Center (CNEMC) and China Observatory, between June 2013 and March 2016 in Beijing, Xi’an, Shanghai and Guangzhou were examined to explore correlations. Characteristics of a rapid (abrupt) rise in PM2.5 mass concentration during early stage of a serious urban PM pollution event were examined and compared with pollution events with a gradual (accumulative) rise in PM2.5 mass concentration. The accumulative rise in air pollution is characterized by a prolonged slow PM2.5 growth rate (3–5 µg m–3 h–1), and could eventually lead to middle level pollution (ambient PM2.5 mass concentration of about 150 µg m–3), accompanied with an uncertain temporal variation in SO2, NO2, O3 and CO concentrations. The abrupt rise process is characterized by a short-term high aerosol growth rate (> 10 µg m–3 h–1), and could eventually form severe air pollution (PM2.5 mass concentration exceeds 250 µg m–3), with a constant increase in gaseous pollutants concentrations. The average relative humidity (RH) was observed to have a less impact on the rise of PM2.5 concentration, but the fluctuation in RH was found to have a strong correlation with the rise in PM2.5 concentration. Further analysis has indicated that both abrupt and accumulative rise in PM2.5 mass concentration could be due to the RH fluctuation in atmosphere. The RH variation is important for the study of the fine-particle growth and for prediction of PM pollution episodes.
Relative humidity (RH); Fluctuation of RH; Aerosol concentration; PM abrupt rise; PM accumulative rise.