Is reducing new particle formation a plausible solution to mitigate particulate air pollution in Beijing and other Chinese megacities?

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http://hdl.handle.net/10138/333067

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Kulmala , M , Dada , L , Dällenbach , K , Yan , C , Stolzenburg , D , Kontkanen , J , Ezhova , E , Hakala , S , Tuovinen , S , Kokkonen , T V , Kurppa , M , Cai , R , Zhou , Y , Yin , R , Baalbaki , R , Chan , T , Chu , B , Deng , C , Fu , Y , Ge , M , He , H , Heikkinen , L , Junninen , H , Liu , Y , Lu , Y , Nie , W , Rusanen , A , Vakkari , V , Wang , Y , Yang , G , Yao , L , Zheng , J , Kujansuu , J , Kangasluoma , J , Petäjä , T , Paasonen , P , Järvi , L , Worsnop , D , Ding , A , Liu , Y , Wang , L , Jiang , J , Bianchi , F & Kerminen , V-M 2021 , ' Is reducing new particle formation a plausible solution to mitigate particulate air pollution in Beijing and other Chinese megacities? ' , Faraday Discussions , vol. 226 , pp. 334-347 . https://doi.org/10.1039/D0FD00078G

Title: Is reducing new particle formation a plausible solution to mitigate particulate air pollution in Beijing and other Chinese megacities?
Author: Kulmala, Markku; Dada, Lubna; Dällenbach, Kaspar; Yan, Chao; Stolzenburg, Dominik; Kontkanen, Jenni; Ezhova, Ekaterina; Hakala, Simo; Tuovinen, Saana; Kokkonen, Tom V.; Kurppa, Mona; Cai, Runlong; Zhou, Ying; Yin, Rujing; Baalbaki, Rima; Chan, Tommy; Chu, Biwu; Deng, Chenjuan; Fu, Yueyun; Ge, Maofa; He, Hong; Heikkinen, Liine; Junninen, Heikki; Liu, Yiliang; Lu, Yiqun; Nie, Wei; Rusanen, Anton; Vakkari, Ville; Wang, Yonghong; Yang, Gan; Yao, Lei; Zheng, Jun; Kujansuu, Joni; Kangasluoma, Juha; Petäjä, Tuukka; Paasonen, Pauli; Järvi, Leena; Worsnop, Douglas; Ding, Aijun; Liu, Yongchun; Wang, Lin; Jiang, Jingkun; Bianchi, Federico; Kerminen, Veli-Matti
Contributor organization: Institute for Atmospheric and Earth System Research (INAR)
Air quality research group
Global Atmosphere-Earth surface feedbacks
Urban meteorology
INAR Physics
Helsinki Institute of Sustainability Science (HELSUS)
Polar and arctic atmospheric research (PANDA)
Faculty of Science
Date: 2021-03-01
Language: eng
Number of pages: 14
Belongs to series: Faraday Discussions
ISSN: 1359-6640
DOI: https://doi.org/10.1039/D0FD00078G
URI: http://hdl.handle.net/10138/333067
Abstract: Atmospheric gas-to-particle conversion is a crucial or even dominant contributor to haze formation in Chinese megacities in terms of aerosol number, surface area and mass. Based on our comprehensive observations in Beijing during 15 January 2018-31 March 2019, we are able to show that 80-90% of the aerosol mass (PM2.5) was formed via atmospheric reactions during the haze days and over 65% of the number concentration of haze particles resulted from new particle formation (NPF). Furthermore, the haze formation was faster when the subsequent growth of newly formed particles was enhanced. Our findings suggest that in practice almost all present-day haze episodes originate from NPF, mainly since the direct emission of primary particles in Beijing has considerably decreased during recent years. We also show that reducing the subsequent growth rate of freshly formed particles by a factor of 3-5 would delay the buildup of haze episodes by 1-3 days. Actually, this delay would decrease the length of each haze episode, so that the number of annual haze days could be approximately halved. Such improvement in air quality can be achieved with targeted reduction of gas-phase precursors for NPF, mainly dimethyl amine and ammonia, and further reductions of SO2 emissions. Furthermore, reduction of anthropogenic organic and inorganic precursor emissions would slow down the growth rate of newly-formed particles and consequently reduce the haze formation.
Subject: 114 Physical sciences
Peer reviewed: Yes
Rights: cc_by_nc
Usage restriction: openAccess
Self-archived version: publishedVersion


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