Simulation of atmospheric organic aerosol using its volatility–oxygen-content distribution during the PEGASOS 2012 campaign

Karnezi, Eleni; Murphy, Benjamin N.; Poulain, Laurent; Herrmann, Hartmut; Wiedensohler, Alfred; Rubach, Florian; Kiendler-Scharr, Astrid; Mentel, Thomas F.; Pandis, Spyros N.

doi:https://doi.org/10.5194/acp-18-10759-2018

Articles | Volume 18, issue 14

https://doi.org/10.5194/acp-18-10759-2018

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

https://doi.org/10.5194/acp-18-10759-2018

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

Articles | Volume 18, issue 14

Research article

|

27 Jul 2018

Research article |

| 27 Jul 2018

Simulation of atmospheric organic aerosol using its volatility–oxygen-content distribution during the PEGASOS 2012 campaign

Eleni Karnezi, Benjamin N. Murphy, Laurent Poulain, Hartmut Herrmann, Alfred Wiedensohler, Florian Rubach, Astrid Kiendler-Scharr, Thomas F. Mentel, and Spyros N. Pandis

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Apr 2018	11	5	1	17
May 2018	19	6	1	26
Jun 2018	12	7	1	20
Jul 2018	219	61	1	281
Aug 2018	143	51	3	197
Sep 2018	21	27	0	48
Oct 2018	28	20	3	51
Nov 2018	29	24	1	54
Dec 2018	11	7	1	19
Jan 2019	10	12	1	23
Feb 2019	12	9	0	21
Mar 2019	6	6	0	12
Apr 2019	8	14	0	22
May 2019	25	16	0	41
Jun 2019	24	15	0	39
Jul 2019	10	5	0	15
Aug 2019	6	11	0	17
Sep 2019	15	17	1	33
Oct 2019	31	9	0	40
Nov 2019	9	10	0	19
Dec 2019	9	9	0	18
Jan 2020	8	11	1	20
Feb 2020	20	8	0	28
Mar 2020	6	14	0	20
Apr 2020	12	8	0	20
May 2020	14	13	0	27
Jun 2020	13	13	0	26
Jul 2020	12	11	4	27
Aug 2020	13	10	3	26
Sep 2020	10	3	1	14
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Nov 2020	10	7	0	17
Dec 2020	6	7	0	13
Jan 2021	20	11	0	31
Feb 2021	6	6	0	12
Mar 2021	6	12	0	18
Apr 2021	12	9	0	21
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Jun 2021	6	11	1	18
Jul 2021	9	15	0	24
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Oct 2021	8	39	0	47
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Jan 2022	7	5	0	12
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Mar 2022	10	9	0	19
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Jul 2022	6	3	1	10
Aug 2022	11	7	0	18
Sep 2022	3	5	0	8
Oct 2022	6	2	1	9
Nov 2022	9	15	0	24
Dec 2022	7	4	0	11
Jan 2023	9	13	1	23
Feb 2023	14	9	0	23
Mar 2023	6	12	1	19
Apr 2023	11	6	0	17
May 2023	33	6	0	39
Jun 2023	45	8	4	57
Jul 2023	33	8	0	41
Aug 2023	38	6	1	45
Sep 2023	42	8	1	51
Oct 2023	50	4	2	56
Nov 2023	21	1	0	22
Dec 2023	41	12	0	53
Jan 2024	30	11	0	41
Feb 2024	38	9	0	47
Mar 2024	46	17	0	63
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May 2024	17	15	6	38
Jun 2024	44	7	1	52

Cumulative views and downloads (calculated since 22 Jan 2018)

Month	HTML	PDF	XML	Total
Jan 2018	135	46	6	187
Feb 2018	41	11	4	56
Mar 2018	25	11	1	37
Apr 2018	11	5	1	17
May 2018	19	6	1	26
Jun 2018	12	7	1	20
Jul 2018	219	61	1	281
Aug 2018	143	51	3	197
Sep 2018	21	27	0	48
Oct 2018	28	20	3	51
Nov 2018	29	24	1	54
Dec 2018	11	7	1	19
Jan 2019	10	12	1	23
Feb 2019	12	9	0	21
Mar 2019	6	6	0	12
Apr 2019	8	14	0	22
May 2019	25	16	0	41
Jun 2019	24	15	0	39
Jul 2019	10	5	0	15
Aug 2019	6	11	0	17
Sep 2019	15	17	1	33
Oct 2019	31	9	0	40
Nov 2019	9	10	0	19
Dec 2019	9	9	0	18
Jan 2020	8	11	1	20
Feb 2020	20	8	0	28
Mar 2020	6	14	0	20
Apr 2020	12	8	0	20
May 2020	14	13	0	27
Jun 2020	13	13	0	26
Jul 2020	12	11	4	27
Aug 2020	13	10	3	26
Sep 2020	10	3	1	14
Oct 2020	4	5	0	9
Nov 2020	10	7	0	17
Dec 2020	6	7	0	13
Jan 2021	20	11	0	31
Feb 2021	6	6	0	12
Mar 2021	6	12	0	18
Apr 2021	12	9	0	21
May 2021	12	10	3	25
Jun 2021	6	11	1	18
Jul 2021	9	15	0	24
Aug 2021	3	6	0	9
Sep 2021	13	12	0	25
Oct 2021	8	39	0	47
Nov 2021	13	18	1	32
Dec 2021	15	11	0	26
Jan 2022	7	5	0	12
Feb 2022	14	15	1	30
Mar 2022	10	9	0	19
Apr 2022	3	6	1	10
May 2022	2	4	0	6
Jun 2022	3	7	0	10
Jul 2022	6	3	1	10
Aug 2022	11	7	0	18
Sep 2022	3	5	0	8
Oct 2022	6	2	1	9
Nov 2022	9	15	0	24
Dec 2022	7	4	0	11
Jan 2023	9	13	1	23
Feb 2023	14	9	0	23
Mar 2023	6	12	1	19
Apr 2023	11	6	0	17
May 2023	33	6	0	39
Jun 2023	45	8	4	57
Jul 2023	33	8	0	41
Aug 2023	38	6	1	45
Sep 2023	42	8	1	51
Oct 2023	50	4	2	56
Nov 2023	21	1	0	22
Dec 2023	41	12	0	53
Jan 2024	30	11	0	41
Feb 2024	38	9	0	47
Mar 2024	46	17	0	63
Apr 2024	43	9	4	56
May 2024	17	15	6	38
Jun 2024	44	7	1	52

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Short summary

Different parameterizations of the organic aerosol (OA) formation and evolution are evaluated using ground and airborne measurements collected in the 2012 PEGASOS field campaign in the Po Valley (Italy). Total OA concentration and O : C ratios were reproduced within experimental error by a number of schemes. Anthropogenic secondary OA (SOA) contributed 15–25 % of the total OA, 20–35 % of SOA from intermediate volatility compounds oxidation, and 15–45 % of biogenic SOA depending on the scheme.

Simulation of atmospheric organic aerosol using its volatility–oxygen-content distribution during the PEGASOS 2012 campaign

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