JpGU Meeting 2020
セッション概要| 大気水圏科学(A) | |||
|---|---|---|---|
| セッション小記号 | 大気科学・気象学・大気環境(AS) | ||
| セッションID | A-AS13 | ||
| タイトル | 和文 | New particle formation and its impacts on atmospheric chemistry | |
| 英文 | New particle formation and its impacts on atmospheric chemistry | ||
| タイトル短縮名 | 和文 | NPF/Atmospheric Impacts | |
| 英文 | NPF/Atmospheric Impacts | ||
| 代表コンビーナ | 氏名 | 和文 | Jun Zheng |
| 英文 | Jun Zheng | ||
| 所属 | 和文 | Nanjing University of Information Science and Technology | |
| 英文 | Nanjing University of Information Science and Technology | ||
| 共同コンビーナ 1 | 氏名 | 和文 | Lin Wang |
| 英文 | Lin Wang | ||
| 所属 | 和文 | Fudan University | |
| 英文 | Fudan University | ||
| 発表言語 | E | ||
| スコープ | 和文 | Despite of the fact that new particle formation (NPF) contributes about half of the aerosol population globally, the underlying mechanisms governing the NPF remain poorly understood. Current NPF models often lead to conflicting results with respect to real-time in-situ observations. Consequently, NPF process is seldomly incorporated into atmospheric models, causing great hindrance to accurately assess aerosol atmospheric impacts on air pollution formation and climate change on both regional and global scales. Although H2SO4, basic gases, and HOMs have been proposed to be responsible for NPF, searching for potential NPF precursors are still an active subject of research. Many recent studies strongly indicate that NPF mechanism may differ from place to place and the newly formed particles may also possess distinct properties (e.g., CCN activity). Nevertheless, there is a great demand to reconcile the conflicting results and to improve our understanding of the mechanisms for NPF. This session solicits contributions that describe research progresses on any aspects of NPF, including laboratory studies, theoretical calculation and modeling, and field measurements. | |
| 英文 | Despite of the fact that new particle formation (NPF) contributes about half of the aerosol population globally, the underlying mechanisms governing the NPF remain poorly understood. Current NPF models often lead to conflicting results with respect to real-time in-situ observations. Consequently, NPF process is seldomly incorporated into atmospheric models, causing great hindrance to accurately assess aerosol atmospheric impacts on air pollution formation and climate change on both regional and global scales. Although H2SO4, basic gases, and HOMs have been proposed to be responsible for NPF, searching for potential NPF precursors are still an active subject of research. Many recent studies strongly indicate that NPF mechanism may differ from place to place and the newly formed particles may also possess distinct properties (e.g., CCN activity). Nevertheless, there is a great demand to reconcile the conflicting results and to improve our understanding of the mechanisms for NPF. This session solicits contributions that describe research progresses on any aspects of NPF, including laboratory studies, theoretical calculation and modeling, and field measurements. | ||
| 発表方法 | 口頭および(または)ポスターセッション | ||