Secondary organic aerosol formation via multiphase reaction of hydrocarbons in urban atmospheres using CAMx integrated with the UNIPAR model

Yu, Zechen; Jang, Myoseon; Kim, Soontae; Son, Kyuwon; Han, Sanghee; Madhu, Azad; Park, Jinsoo

doi:10.5194/acp-22-9083-2022

Articles | Volume 22, issue 13

https://doi.org/10.5194/acp-22-9083-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-22-9083-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 22, issue 13

Research article

|

14 Jul 2022

Research article |

| 14 Jul 2022

Secondary organic aerosol formation via multiphase reaction of hydrocarbons in urban atmospheres using CAMx integrated with the UNIPAR model

Zechen Yu, Myoseon Jang, Soontae Kim, Kyuwon Son, Sanghee Han, Azad Madhu, and Jinsoo Park

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BibTeX: 75
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Views and downloads (calculated since 13 Jan 2022)

Month	HTML	PDF	XML	Total
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Feb 2022	62	22	7	91
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Apr 2022	60	27	0	87
May 2022	28	12	1	41
Jun 2022	23	4	1	28
Jul 2022	336	62	7	405
Aug 2022	176	42	1	219
Sep 2022	80	12	0	92
Oct 2022	64	20	1	85
Nov 2022	112	23	0	135
Dec 2022	79	13	1	93
Jan 2023	59	21	1	81
Feb 2023	31	12	0	43
Mar 2023	32	15	0	47
Apr 2023	16	8	0	24
May 2023	23	18	1	42
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Jul 2023	30	17	0	47
Aug 2023	13	15	3	31
Sep 2023	30	13	1	44
Oct 2023	28	13	2	43
Nov 2023	11	4	0	15
Dec 2023	20	11	0	31
Jan 2024	34	9	0	43
Feb 2024	19	18	1	38
Mar 2024	25	25	0	50
Apr 2024	19	8	4	31
May 2024	34	10	0	44
Jun 2024	41	10	1	52
Jul 2024	54	14	2	70
Aug 2024	28	15	5	48
Sep 2024	26	7	0	33
Oct 2024	20	11	0	31
Nov 2024	17	2	1	20
Dec 2024	9	11	1	21
Jan 2025	25	17	0	42
Feb 2025	28	10	0	38
Mar 2025	23	11	0	34
Apr 2025	36	14	4	54
May 2025	43	13	0	56
Jun 2025	69	25	13	107
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Dec 2025	52	40	1	93
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Cumulative views and downloads (calculated since 13 Jan 2022)

Month	HTML	PDF	XML	Total
Jan 2022	202	42	7	251
Feb 2022	62	22	7	91
Mar 2022	56	16	2	74
Apr 2022	60	27	0	87
May 2022	28	12	1	41
Jun 2022	23	4	1	28
Jul 2022	336	62	7	405
Aug 2022	176	42	1	219
Sep 2022	80	12	0	92
Oct 2022	64	20	1	85
Nov 2022	112	23	0	135
Dec 2022	79	13	1	93
Jan 2023	59	21	1	81
Feb 2023	31	12	0	43
Mar 2023	32	15	0	47
Apr 2023	16	8	0	24
May 2023	23	18	1	42
Jun 2023	31	9	1	41
Jul 2023	30	17	0	47
Aug 2023	13	15	3	31
Sep 2023	30	13	1	44
Oct 2023	28	13	2	43
Nov 2023	11	4	0	15
Dec 2023	20	11	0	31
Jan 2024	34	9	0	43
Feb 2024	19	18	1	38
Mar 2024	25	25	0	50
Apr 2024	19	8	4	31
May 2024	34	10	0	44
Jun 2024	41	10	1	52
Jul 2024	54	14	2	70
Aug 2024	28	15	5	48
Sep 2024	26	7	0	33
Oct 2024	20	11	0	31
Nov 2024	17	2	1	20
Dec 2024	9	11	1	21
Jan 2025	25	17	0	42
Feb 2025	28	10	0	38
Mar 2025	23	11	0	34
Apr 2025	36	14	4	54
May 2025	43	13	0	56
Jun 2025	69	25	13	107
Jul 2025	40	21	2	63
Aug 2025	53	17	1	71
Sep 2025	45	16	2	63
Oct 2025	35	24	0	59
Nov 2025	53	29	5	87
Dec 2025	52	40	1	93
Jan 2026	42	7	3	52

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Short summary

The UNIPAR model was incorporated into CAMx to predict the ambient concentration of organic matter in urban atmospheres during the KORUS-AQ campaign. CAMx–UNIPAR significantly improved the simulation of SOA formation under the wet aerosol condition through the consideration of aqueous reactions of reactive organic species and gas–aqueous partitioning into the wet inorganic aerosol.


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