期刊
AEROSOL AND AIR QUALITY RESEARCH
卷 22, 期 9, 页码 -出版社
TAIWAN ASSOC AEROSOL RES-TAAR
DOI: 10.4209/aaqr.220097
关键词
Particle number concentration; Size distribution; Megacity; Regional pollution; New particle formation
资金
- Sun Yat-sen University [74110-18841227]
- Ministry of Science and Technology, Guangdong Province [2020A1515011138]
A measurement campaign was conducted in Guangzhou, China to study particle pollution. The results showed severe particle pollution in both urban and suburban areas, influenced by monsoon and land-sea breeze systems. The study also found that local emissions, mainly from vehicles, significantly contributed to the pollution, while reduced human activities during the Chinese New Year period led to lower emissions. Additionally, the study highlighted the impact of new particle formation on particle pollution.
A measurement campaign of particle number concentration and size distribution was conducted at urban (SYSU) and suburban (Panyu) areas of Guangzhou, South China, during 16 January to 3 February 2020 before and during the Chinese New Year (CNY) holiday. Average particle number concentration (PNC) was 6.3 x 10(3) cm(-3) and 9.7 x 10(3) cm(-3), respectively, at urban and suburban sites, indicating the severe particulate matter (PM) pollution. The PNC in the region was influenced by monsoon and the land-sea breeze systems. During monsoon seasons, PM pollution occurred at a regional scale affecting the urban and suburban areas as indicated by the high PNC correlation (r value = 0.70), but the PNCs were lower than that during land-sea breeze period (with lower PNCM1/PNCLSB1 and PNCM2/PNCLSB2 ratios) due to the higher atmospheric dispersion. There is a strong local emission (mainly vehicular emissions) in both urban and suburban areas which was significantly lowered during the CNY period due to reduced human activities. The PM pollution was found to be significantly influenced by local emissions (dominated by Aitken mode particles) and new particle formation (NPF) process (dominated by nucleation mode particles). NPF event was found to be associated with a higher N10-25/H2SO4 proxy ratio during the low wind speed condition.
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