A comprehensive observation-based multiphase chemical model analysis of sulfur dioxide oxidations in both summer and winter

Song, Huan; Lu, Keding; Ye, Can; Dong, Huabin; Li, Shule; Chen, Shiyi; Wu, Zhijun; Zheng, Mei; Zeng, Limin; Hu, Min; Zhang, Yuanhang

doi:https://doi.org/10.5194/acp-21-13713-2021

Articles | Volume 21, issue 17

https://doi.org/10.5194/acp-21-13713-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-21-13713-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 21, issue 17

Research article

|

14 Sep 2021

Research article |

| 14 Sep 2021

A comprehensive observation-based multiphase chemical model analysis of sulfur dioxide oxidations in both summer and winter

Huan Song, Keding Lu, Can Ye, Huabin Dong, Shule Li, Shiyi Chen, Zhijun Wu, Mei Zheng, Limin Zeng, Min Hu, and Yuanhang Zhang

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BibTeX: 27
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Views and downloads (calculated since 31 May 2021)

Month	HTML	PDF	XML	Total
May 2021	102	27	0	129
Jun 2021	168	50	2	220
Jul 2021	67	17	3	87
Aug 2021	56	17	5	78
Sep 2021	239	71	7	317
Oct 2021	126	52	0	178
Nov 2021	123	42	3	168
Dec 2021	110	28	2	140
Jan 2022	44	24	1	69
Feb 2022	26	14	1	41
Mar 2022	32	22	1	55
Apr 2022	23	11	2	36
May 2022	22	15	0	37
Jun 2022	23	7	1	31
Jul 2022	34	8	0	42
Aug 2022	95	22	0	117
Sep 2022	16	9	0	25
Oct 2022	38	9	1	48
Nov 2022	29	14	0	43
Dec 2022	19	9	0	28
Jan 2023	18	23	1	42
Feb 2023	37	7	0	44
Mar 2023	27	15	0	42
Apr 2023	10	10	0	20
May 2023	21	10	2	33
Jun 2023	24	11	1	36
Jul 2023	19	14	1	34
Aug 2023	25	15	2	42
Sep 2023	22	15	0	37
Oct 2023	24	15	2	41
Nov 2023	18	9	0	27
Dec 2023	17	6	1	24
Jan 2024	18	10	0	28
Feb 2024	19	17	0	36
Mar 2024	31	26	3	60
Apr 2024	15	7	1	23

Cumulative views and downloads (calculated since 31 May 2021)

Month	HTML	PDF	XML	Total
May 2021	102	27	0	129
Jun 2021	168	50	2	220
Jul 2021	67	17	3	87
Aug 2021	56	17	5	78
Sep 2021	239	71	7	317
Oct 2021	126	52	0	178
Nov 2021	123	42	3	168
Dec 2021	110	28	2	140
Jan 2022	44	24	1	69
Feb 2022	26	14	1	41
Mar 2022	32	22	1	55
Apr 2022	23	11	2	36
May 2022	22	15	0	37
Jun 2022	23	7	1	31
Jul 2022	34	8	0	42
Aug 2022	95	22	0	117
Sep 2022	16	9	0	25
Oct 2022	38	9	1	48
Nov 2022	29	14	0	43
Dec 2022	19	9	0	28
Jan 2023	18	23	1	42
Feb 2023	37	7	0	44
Mar 2023	27	15	0	42
Apr 2023	10	10	0	20
May 2023	21	10	2	33
Jun 2023	24	11	1	36
Jul 2023	19	14	1	34
Aug 2023	25	15	2	42
Sep 2023	22	15	0	37
Oct 2023	24	15	2	41
Nov 2023	18	9	0	27
Dec 2023	17	6	1	24
Jan 2024	18	10	0	28
Feb 2024	19	17	0	36
Mar 2024	31	26	3	60
Apr 2024	15	7	1	23

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Short summary

Secondary sulfate aerosols are an important component of fine particles in severe air pollution events. We calculated the sulfate formation rates via a state-of-the-art multiphase model constrained to the observed values. We showed that transition metals in urban aerosols contribute significantly to sulfate formation during haze periods and thus play an important role in mitigation strategies and public health measures in megacities worldwide.

A comprehensive observation-based multiphase chemical model analysis of sulfur dioxide oxidations in both summer and winter

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11 citations as recorded by crossref.

11 citations as recorded by crossref.


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