The driving factors of new particle formation and growth in the polluted boundary layer

Xiao, Mao; Hoyle, Christopher R.; Dada, Lubna; Stolzenburg, Dominik; Kürten, Andreas; Wang, Mingyi; Lamkaddam, Houssni; Garmash, Olga; Mentler, Bernhard; Molteni, Ugo; Baccarini, Andrea; Simon, Mario; He, Xu Cheng; Lehtipalo, Katrianne; Ahonen, Lauri R.; Baalbaki, Rima; Bauer, Paulus S.; Beck, Lisa; Bell, David; Bianchi, Federico; Brilke, Sophia; Chen, Dexian; Chiu, Randall; Dias, António; Duplissy, Jonathan; Finkenzeller, Henning; Gordon, Hamish; Hofbauer, Victoria; Kim, Changhyuk; Koenig, Theodore K.; Lampilahti, Janne; Lee, Chuan Ping; Li, Zijun; Mai, Huajun; Makhmutov, Vladimir; Manninen, Hanna E.; Marten, Ruby; Mathot, Serge; Mauldin, Roy L.; Nie, Wei; Onnela, Antti; Partoll, Eva; Petäjä, Tuukka; Pfeifer, Joschka; Pospisilova, Veronika; Quéléver, Lauriane L.J.; Rissanen, Matti; Schobesberger, Siegfried; Schuchmann, Simone; Stozhkov, Yuri; Tauber, Christian; Tham, Yee Jun; Tomé, António; Vazquez-Pufleau, Miguel; Wagner, Andrea C.; Wagner, Robert; Wang, Yonghong; Weitz, Lena; Wimmer, Daniela; Wu, Yusheng; Yan, Chao; Ye, Penglin; Ye, Qing; Zha, Qiaozhi; Zhou, Xueqin; Amorim, Antonio; Carslaw, Ken; Curtius, Joachim; Hansel, Armin; Volkamer, Rainer; Winkler, Paul M.; Flagan, Richard C.; Kulmala, Markku; Worsnop, Douglas R.; Kirkby, Jasper; Donahue, Neil M.; Baltensperger, Urs; El Haddad, Imad; Dommen, Josef

The driving factors of new particle formation and growth in the polluted boundary layer

Xiao, Mao; Hoyle, Christopher R.; Dada, Lubna; Stolzenburg, Dominik; Kürten, Andreas; Wang, Mingyi; Lamkaddam, Houssni; Garmash, Olga; Mentler, Bernhard; Molteni, Ugo; Baccarini, Andrea; Simon, Mario; He, Xu Cheng; Lehtipalo, Katrianne; Ahonen, Lauri R.; Baalbaki, Rima; Bauer, Paulus S.; Beck, Lisa; Bell, David; Bianchi, Federico; Brilke, Sophia; Chen, Dexian; Chiu, Randall; Dias, António; Duplissy, Jonathan; Finkenzeller, Henning; Gordon, Hamish; Hofbauer, Victoria; Kim, Changhyuk; Koenig, Theodore K.; Lampilahti, Janne; Lee, Chuan Ping; Li, Zijun; Mai, Huajun; Makhmutov, Vladimir; Manninen, Hanna E.; Marten, Ruby; Mathot, Serge; Mauldin, Roy L.; Nie, Wei; Onnela, Antti; Partoll, Eva; Petäjä, Tuukka; Pfeifer, Joschka; Pospisilova, Veronika; Quéléver, Lauriane L.J.; Rissanen, Matti; Schobesberger, Siegfried; Schuchmann, Simone; Stozhkov, Yuri; Tauber, Christian; Tham, Yee Jun; Tomé, António; Vazquez-Pufleau, Miguel; Wagner, Andrea C.; Wagner, Robert; Wang, Yonghong; Weitz, Lena; Wimmer, Daniela; Wu, Yusheng; Yan, Chao; Ye, Penglin; Ye, Qing; Zha, Qiaozhi; Zhou, Xueqin; Amorim, Antonio; Carslaw, Ken; Curtius, Joachim; Hansel, Armin; Volkamer, Rainer; Winkler, Paul M.; Flagan, Richard C.; Kulmala, Markku; Worsnop, Douglas R.; Kirkby, Jasper; Donahue, Neil M.; Baltensperger, Urs; El Haddad, Imad; Dommen, Josef (2021)

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The_driving_factors_of_new_particle_formation.pdf (2.549Mt)

Lataukset:

Xiao, Mao

Hoyle, Christopher R.

Dada, Lubna

Stolzenburg, Dominik

Kürten, Andreas

Wang, Mingyi

Lamkaddam, Houssni

Garmash, Olga

Mentler, Bernhard

Molteni, Ugo

Baccarini, Andrea

Simon, Mario

He, Xu Cheng

Lehtipalo, Katrianne

Ahonen, Lauri R.

Baalbaki, Rima

Bauer, Paulus S.

Beck, Lisa

Bell, David

Bianchi, Federico

Brilke, Sophia

Chen, Dexian

Chiu, Randall

Dias, António

Duplissy, Jonathan

Finkenzeller, Henning

Gordon, Hamish

Hofbauer, Victoria

Kim, Changhyuk

Koenig, Theodore K.

Lampilahti, Janne

Lee, Chuan Ping

Li, Zijun

Mai, Huajun

Makhmutov, Vladimir

Manninen, Hanna E.

Marten, Ruby

Mathot, Serge

Mauldin, Roy L.

Nie, Wei

Onnela, Antti

Partoll, Eva

Petäjä, Tuukka

Pfeifer, Joschka

Pospisilova, Veronika

Quéléver, Lauriane L.J.

Rissanen, Matti

Schobesberger, Siegfried

Schuchmann, Simone

Stozhkov, Yuri

Tauber, Christian

Tham, Yee Jun

Tomé, António

Vazquez-Pufleau, Miguel

Wagner, Andrea C.

Wagner, Robert

Wang, Yonghong

Weitz, Lena

Wimmer, Daniela

Wu, Yusheng

Yan, Chao

Ye, Penglin

Ye, Qing

Zha, Qiaozhi

Zhou, Xueqin

Amorim, Antonio

Carslaw, Ken

Curtius, Joachim

Hansel, Armin

Volkamer, Rainer

Winkler, Paul M.

Flagan, Richard C.

Kulmala, Markku

Worsnop, Douglas R.

Kirkby, Jasper

Donahue, Neil M.

Baltensperger, Urs

El Haddad, Imad

Dommen, Josef

2021

Atmospheric Chemistry and Physics

doi:10.5194/acp-21-14275-2021

Näytä kaikki kuvailutiedot

Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tuni-202111118356

Kuvaus

Peer reviewed

Tiivistelmä

New particle formation (NPF) is a significant source of atmospheric particles, affecting climate and air quality. Understanding the mechanisms involved in urban aerosols is important to develop effective mitigation strategies. However, NPF rates reported in the polluted boundary layer span more than 4 orders of magnitude, and the reasons behind this variability are the subject of intense scientific debate. Multiple atmospheric vapours have been postulated to participate in NPF, including sulfuric acid, ammonia, amines and organics, but their relative roles remain unclear. We investigated NPF in the CLOUD chamber using mixtures of anthropogenic vapours that simulate polluted boundary layer conditions. We demonstrate that NPF in polluted environments is largely driven by the formation of sulfuric acid-base clusters, stabilized by the presence of amines, high ammonia concentrations and lower temperatures. Aromatic oxidation products, despite their extremely low volatility, play a minor role in NPF in the chosen urban environment but can be important for particle growth and hence for the survival of newly formed particles. Our measurements quantitatively account for NPF in highly diverse urban environments and explain its large observed variability. Such quantitative information obtained under controlled laboratory conditions will help the interpretation of future ambient observations of NPF rates in polluted atmospheres.

Kokoelmat

TUNICRIS-julkaisut [24353]