Dome effect of black carbon and its key influencing factors: a one-dimensional modelling study

Wang, Zilin; Huang, Xin; Ding, Aijun

doi:10.5194/acp-18-2821-2018

Articles | Volume 18, issue 4

https://doi.org/10.5194/acp-18-2821-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-18-2821-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 4

Research article

|

27 Feb 2018

Research article |

| 27 Feb 2018

Dome effect of black carbon and its key influencing factors: a one-dimensional modelling study

Zilin Wang, Xin Huang, and Aijun Ding

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Total article views: 6,735 (including HTML, PDF, and XML)

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4,712	1,899	124	6,735	129	187

HTML: 4,712
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Total: 6,735
BibTeX: 129
EndNote: 187

Views and downloads (calculated since 19 Oct 2017)

Month	HTML	PDF	XML	Total
Oct 2017	156	61	2	219
Nov 2017	56	23	0	79
Dec 2017	17	15	1	33
Jan 2018	37	19	1	57
Feb 2018	114	43	4	161
Mar 2018	164	82	2	248
Apr 2018	35	80	1	116
May 2018	26	35	1	62
Jun 2018	26	22	0	48
Jul 2018	18	28	0	46
Aug 2018	26	31	0	57
Sep 2018	11	22	0	33
Oct 2018	22	22	1	45
Nov 2018	16	21	0	37
Dec 2018	15	17	1	33
Jan 2019	15	20	2	37
Feb 2019	19	14	0	33
Mar 2019	7	14	0	21
Apr 2019	17	17	1	35
May 2019	13	22	0	35
Jun 2019	30	14	0	44
Jul 2019	17	15	0	32
Aug 2019	14	15	1	30
Sep 2019	8	4	0	12
Oct 2019	12	12	1	25
Nov 2019	12	13	0	25
Dec 2019	12	4	0	16
Jan 2020	9	5	0	14
Feb 2020	6	5	1	12
Mar 2020	6	9	0	15
Apr 2020	20	17	2	39
May 2020	33	17	0	50
Jun 2020	37	20	0	57
Jul 2020	29	27	5	61
Aug 2020	19	16	1	36
Sep 2020	11	9	0	20
Oct 2020	10	13	1	24
Nov 2020	10	15	0	25
Dec 2020	28	6	1	35
Jan 2021	12	10	0	22
Feb 2021	17	8	0	25
Mar 2021	24	12	0	36
Apr 2021	23	8	0	31
May 2021	26	9	2	37
Jun 2021	31	5	0	36
Jul 2021	25	14	0	39
Aug 2021	43	14	0	57
Sep 2021	37	11	0	48
Oct 2021	34	40	0	74
Nov 2021	44	41	2	87
Dec 2021	53	17	0	70
Jan 2022	61	15	4	80
Feb 2022	50	16	2	68
Mar 2022	64	16	0	80
Apr 2022	46	17	1	64
May 2022	57	14	0	71
Jun 2022	26	11	0	37
Jul 2022	50	5	0	55
Aug 2022	120	7	2	129
Sep 2022	24	16	0	40
Oct 2022	67	15	0	82
Nov 2022	68	23	0	91
Dec 2022	73	15	0	88
Jan 2023	62	15	1	78
Feb 2023	71	25	0	96
Mar 2023	78	30	0	108
Apr 2023	55	25	1	81
May 2023	74	25	1	100
Jun 2023	101	16	3	120
Jul 2023	83	16	3	102
Aug 2023	87	15	3	105
Sep 2023	119	15	1	135
Oct 2023	184	14	2	200
Nov 2023	179	13	1	193
Dec 2023	72	18	3	93
Jan 2024	74	26	4	104
Feb 2024	43	27	0	70
Mar 2024	50	36	3	89
Apr 2024	76	12	5	93
May 2024	58	15	3	76
Jun 2024	101	18	3	122
Jul 2024	75	12	2	89
Aug 2024	47	11	1	59
Sep 2024	28	10	0	38
Oct 2024	45	18	1	64
Nov 2024	52	15	1	68
Dec 2024	34	13	2	49
Jan 2025	41	17	0	58
Feb 2025	69	23	0	92
Mar 2025	53	18	3	74
Apr 2025	39	17	1	57
May 2025	63	26	1	90
Jun 2025	76	23	3	102
Jul 2025	55	24	2	81
Aug 2025	70	24	1	95
Sep 2025	86	15	1	102
Oct 2025	43	27	4	74
Nov 2025	61	42	21	124

Cumulative views and downloads (calculated since 19 Oct 2017)

Month	HTML	PDF	XML	Total
Oct 2017	156	61	2	219
Nov 2017	56	23	0	79
Dec 2017	17	15	1	33
Jan 2018	37	19	1	57
Feb 2018	114	43	4	161
Mar 2018	164	82	2	248
Apr 2018	35	80	1	116
May 2018	26	35	1	62
Jun 2018	26	22	0	48
Jul 2018	18	28	0	46
Aug 2018	26	31	0	57
Sep 2018	11	22	0	33
Oct 2018	22	22	1	45
Nov 2018	16	21	0	37
Dec 2018	15	17	1	33
Jan 2019	15	20	2	37
Feb 2019	19	14	0	33
Mar 2019	7	14	0	21
Apr 2019	17	17	1	35
May 2019	13	22	0	35
Jun 2019	30	14	0	44
Jul 2019	17	15	0	32
Aug 2019	14	15	1	30
Sep 2019	8	4	0	12
Oct 2019	12	12	1	25
Nov 2019	12	13	0	25
Dec 2019	12	4	0	16
Jan 2020	9	5	0	14
Feb 2020	6	5	1	12
Mar 2020	6	9	0	15
Apr 2020	20	17	2	39
May 2020	33	17	0	50
Jun 2020	37	20	0	57
Jul 2020	29	27	5	61
Aug 2020	19	16	1	36
Sep 2020	11	9	0	20
Oct 2020	10	13	1	24
Nov 2020	10	15	0	25
Dec 2020	28	6	1	35
Jan 2021	12	10	0	22
Feb 2021	17	8	0	25
Mar 2021	24	12	0	36
Apr 2021	23	8	0	31
May 2021	26	9	2	37
Jun 2021	31	5	0	36
Jul 2021	25	14	0	39
Aug 2021	43	14	0	57
Sep 2021	37	11	0	48
Oct 2021	34	40	0	74
Nov 2021	44	41	2	87
Dec 2021	53	17	0	70
Jan 2022	61	15	4	80
Feb 2022	50	16	2	68
Mar 2022	64	16	0	80
Apr 2022	46	17	1	64
May 2022	57	14	0	71
Jun 2022	26	11	0	37
Jul 2022	50	5	0	55
Aug 2022	120	7	2	129
Sep 2022	24	16	0	40
Oct 2022	67	15	0	82
Nov 2022	68	23	0	91
Dec 2022	73	15	0	88
Jan 2023	62	15	1	78
Feb 2023	71	25	0	96
Mar 2023	78	30	0	108
Apr 2023	55	25	1	81
May 2023	74	25	1	100
Jun 2023	101	16	3	120
Jul 2023	83	16	3	102
Aug 2023	87	15	3	105
Sep 2023	119	15	1	135
Oct 2023	184	14	2	200
Nov 2023	179	13	1	193
Dec 2023	72	18	3	93
Jan 2024	74	26	4	104
Feb 2024	43	27	0	70
Mar 2024	50	36	3	89
Apr 2024	76	12	5	93
May 2024	58	15	3	76
Jun 2024	101	18	3	122
Jul 2024	75	12	2	89
Aug 2024	47	11	1	59
Sep 2024	28	10	0	38
Oct 2024	45	18	1	64
Nov 2024	52	15	1	68
Dec 2024	34	13	2	49
Jan 2025	41	17	0	58
Feb 2025	69	23	0	92
Mar 2025	53	18	3	74
Apr 2025	39	17	1	57
May 2025	63	26	1	90
Jun 2025	76	23	3	102
Jul 2025	55	24	2	81
Aug 2025	70	24	1	95
Sep 2025	86	15	1	102
Oct 2025	43	27	4	74
Nov 2025	61	42	21	124

Viewed (geographical distribution)

Total article views: 6,735 (including HTML, PDF, and XML) Thereof 6,735 with geography defined and 0 with unknown origin.

Country	#	Views	%

1

1

Latest update: 27 Nov 2025

Short summary

Black carbon has great importance in aerosol–boundary layer interaction (the dome effect). Key factors like vertical profile and aging of aerosol, and underlying surface, are explored with a meteorology–chemistry coupled model. We found the effect to be sensitive to altitude of aerosol and can be intensified by aging processes. The effect is also more substantial in rural areas. China’s air quality would benefit from black carbon reduction from elevated sources and domestic combustion.


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