Insight into winter haze formation mechanisms based on aerosol hygroscopicity and effective density measurements

Xie, Yuanyuan; Ye, Xingnan; Ma, Zhen; Tao, Ye; Wang, Ruyu; Zhang, Ci; Yang, Xin; Chen, Jianmin; Chen, Hong

doi:10.5194/acp-17-7277-2017

Articles | Volume 17, issue 11

https://doi.org/10.5194/acp-17-7277-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

Regional transport and transformation of air pollution in...

https://doi.org/10.5194/acp-17-7277-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 17, issue 11

Research article

|

16 Jun 2017

Research article |

| 16 Jun 2017

Insight into winter haze formation mechanisms based on aerosol hygroscopicity and effective density measurements

Yuanyuan Xie, Xingnan Ye, Zhen Ma, Ye Tao, Ruyu Wang, Ci Zhang, Xin Yang, Jianmin Chen, and Hong Chen

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Total article views: 4,085 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,563	1,382	140	4,085	506	134	224

HTML: 2,563
PDF: 1,382
XML: 140
Total: 4,085
Supplement: 506
BibTeX: 134
EndNote: 224

Views and downloads (calculated since 16 Feb 2017)

Month	HTML	PDF	XML	Total
Feb 2017	170	51	3	224
Mar 2017	106	29	14	149
Apr 2017	128	17	11	156
May 2017	70	14	11	95
Jun 2017	254	97	8	359
Jul 2017	56	34	2	92
Aug 2017	29	28	0	57
Sep 2017	30	31	0	61
Oct 2017	24	22	0	46
Nov 2017	28	27	1	56
Dec 2017	22	14	1	37
Jan 2018	29	26	2	57
Feb 2018	11	10	0	21
Mar 2018	27	28	1	56
Apr 2018	22	20	1	43
May 2018	18	18	0	36
Jun 2018	11	15	1	27
Jul 2018	10	18	0	28
Aug 2018	19	14	1	34
Sep 2018	12	14	0	26
Oct 2018	15	10	2	27
Nov 2018	17	18	0	35
Dec 2018	11	8	1	20
Jan 2019	7	11	0	18
Feb 2019	12	11	0	23
Mar 2019	4	8	1	13
Apr 2019	5	6	0	11
May 2019	8	11	0	19
Jun 2019	5	11	1	17
Jul 2019	4	4	0	8
Aug 2019	6	4	0	10
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Oct 2019	8	4	1	13
Nov 2019	6	8	0	14
Dec 2019	9	11	0	20
Jan 2020	13	5	0	18
Feb 2020	4	5	1	10
Mar 2020	2	3	0	5
Apr 2020	14	13	0	27
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Aug 2020	5	8	1	14
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Oct 2020	8	10	0	18
Nov 2020	6	6	0	12
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Jan 2021	18	8	0	26
Feb 2021	10	7	0	17
Mar 2021	9	7	0	16
Apr 2021	8	10	2	20
May 2021	5	10	2	17
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Oct 2021	6	38	0	44
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Sep 2022	6	7	0	13
Oct 2022	10	2	1	13
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Jan 2023	5	8	0	13
Feb 2023	16	10	0	26
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Apr 2023	8	8	0	16
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Oct 2023	40	6	1	47
Nov 2023	25	5	0	30
Dec 2023	40	10	2	52
Jan 2024	37	10	1	48
Feb 2024	35	8	0	43
Mar 2024	43	19	0	62
Apr 2024	44	5	3	52
May 2024	12	18	2	32
Jun 2024	36	6	1	43
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Sep 2024	14	4	0	18
Oct 2024	14	6	0	20
Nov 2024	11	2	2	15
Dec 2024	15	2	6	23
Jan 2025	26	7	3	36
Feb 2025	26	6	0	32
Mar 2025	16	10	1	27
Apr 2025	7	13	0	20
May 2025	21	9	0	30
Jun 2025	39	8	1	48
Jul 2025	21	12	1	34
Aug 2025	15	15	3	33
Sep 2025	38	13	2	53
Oct 2025	19	32	0	51
Nov 2025	28	30	6	64
Dec 2025	23	20	0	43
Jan 2026	40	21	4	65
Feb 2026	34	13	2	49
Mar 2026	13	4	2	19

Cumulative views and downloads (calculated since 16 Feb 2017)

Month	HTML	PDF	XML	Total
Feb 2017	170	51	3	224
Mar 2017	106	29	14	149
Apr 2017	128	17	11	156
May 2017	70	14	11	95
Jun 2017	254	97	8	359
Jul 2017	56	34	2	92
Aug 2017	29	28	0	57
Sep 2017	30	31	0	61
Oct 2017	24	22	0	46
Nov 2017	28	27	1	56
Dec 2017	22	14	1	37
Jan 2018	29	26	2	57
Feb 2018	11	10	0	21
Mar 2018	27	28	1	56
Apr 2018	22	20	1	43
May 2018	18	18	0	36
Jun 2018	11	15	1	27
Jul 2018	10	18	0	28
Aug 2018	19	14	1	34
Sep 2018	12	14	0	26
Oct 2018	15	10	2	27
Nov 2018	17	18	0	35
Dec 2018	11	8	1	20
Jan 2019	7	11	0	18
Feb 2019	12	11	0	23
Mar 2019	4	8	1	13
Apr 2019	5	6	0	11
May 2019	8	11	0	19
Jun 2019	5	11	1	17
Jul 2019	4	4	0	8
Aug 2019	6	4	0	10
Sep 2019	9	5	0	14
Oct 2019	8	4	1	13
Nov 2019	6	8	0	14
Dec 2019	9	11	0	20
Jan 2020	13	5	0	18
Feb 2020	4	5	1	10
Mar 2020	2	3	0	5
Apr 2020	14	13	0	27
May 2020	7	5	1	13
Jun 2020	14	12	0	26
Jul 2020	14	13	6	33
Aug 2020	5	8	1	14
Sep 2020	11	5	0	16
Oct 2020	8	10	0	18
Nov 2020	6	6	0	12
Dec 2020	7	3	0	10
Jan 2021	18	8	0	26
Feb 2021	10	7	0	17
Mar 2021	9	7	0	16
Apr 2021	8	10	2	20
May 2021	5	10	2	17
Jun 2021	6	7	0	13
Jul 2021	7	8	0	15
Aug 2021	9	11	0	20
Sep 2021	10	7	0	17
Oct 2021	6	38	0	44
Nov 2021	20	29	1	50
Dec 2021	13	13	0	26
Jan 2022	11	9	0	20
Feb 2022	11	7	1	19
Mar 2022	10	10	1	21
Apr 2022	7	2	1	10
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Jun 2022	8	2	1	11
Jul 2022	3	1	0	4
Aug 2022	16	11	1	28
Sep 2022	6	7	0	13
Oct 2022	10	2	1	13
Nov 2022	21	12	1	34
Dec 2022	14	7	1	22
Jan 2023	5	8	0	13
Feb 2023	16	10	0	26
Mar 2023	26	21	3	50
Apr 2023	8	8	0	16
May 2023	32	9	0	41
Jun 2023	42	7	2	51
Jul 2023	36	3	1	40
Aug 2023	39	10	1	50
Sep 2023	35	4	0	39
Oct 2023	40	6	1	47
Nov 2023	25	5	0	30
Dec 2023	40	10	2	52
Jan 2024	37	10	1	48
Feb 2024	35	8	0	43
Mar 2024	43	19	0	62
Apr 2024	44	5	3	52
May 2024	12	18	2	32
Jun 2024	36	6	1	43
Jul 2024	11	3	2	16
Aug 2024	20	5	3	28
Sep 2024	14	4	0	18
Oct 2024	14	6	0	20
Nov 2024	11	2	2	15
Dec 2024	15	2	6	23
Jan 2025	26	7	3	36
Feb 2025	26	6	0	32
Mar 2025	16	10	1	27
Apr 2025	7	13	0	20
May 2025	21	9	0	30
Jun 2025	39	8	1	48
Jul 2025	21	12	1	34
Aug 2025	15	15	3	33
Sep 2025	38	13	2	53
Oct 2025	19	32	0	51
Nov 2025	28	30	6	64
Dec 2025	23	20	0	43
Jan 2026	40	21	4	65
Feb 2026	34	13	2	49
Mar 2026	13	4	2	19

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Short summary

Urban air pollution is one of the greatest environmental concern in 21st century. In this paper, we trace temporal evolutions of aerosol hygroscopicity and effective density during a representative particulate matter episode, which provide a strong support on that severe haze pollution can be formed in highly polluted areas by the initial accumulation of gas-phase and particulate pollutants under stagnant meteorological conditions and subsequent rapid particle growth by secondary processes.


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