Inversely modeling homogeneous H2SO4 − H2O nucleation rate in exhaust-related conditions

Olin, Miska; Alanen, Jenni; Palmroth, Marja R. T.; Rönkkö, Topi; Dal Maso, Miikka

doi:https://doi.org/10.5194/acp-19-6367-2019

Articles | Volume 19, issue 9

https://doi.org/10.5194/acp-19-6367-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-19-6367-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 9

Research article

|

15 May 2019

Research article |

| 15 May 2019

Inversely modeling homogeneous H₂SO₄ − H₂O nucleation rate in exhaust-related conditions

Miska Olin, Jenni Alanen, Marja R. T. Palmroth, Topi Rönkkö, and Miikka Dal Maso

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Oct 2018	41	8	1	50
Nov 2018	46	16	1	63
Dec 2018	20	8	0	28
Jan 2019	7	6	0	13
Feb 2019	6	2	0	8
Mar 2019	4	9	0	13
Apr 2019	6	9	0	15
May 2019	150	44	7	201
Jun 2019	37	24	0	61
Jul 2019	16	11	0	27
Aug 2019	8	11	2	21
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Oct 2019	7	16	1	24
Nov 2019	7	4	0	11
Dec 2019	13	6	0	19
Jan 2020	16	5	0	21
Feb 2020	15	10	3	28
Mar 2020	10	8	0	18
Apr 2020	5	3	0	8
May 2020	19	8	0	27
Jun 2020	16	10	0	26
Jul 2020	17	11	3	31
Aug 2020	24	12	1	37
Sep 2020	13	6	2	21
Oct 2020	4	8	0	12
Nov 2020	3	8	0	11
Dec 2020	11	6	0	17
Jan 2021	11	6	0	17
Feb 2021	11	4	0	15
Mar 2021	8	6	0	14
Apr 2021	11	11	0	22
May 2021	13	3	2	18
Jun 2021	30	4	1	35
Jul 2021	6	6	0	12
Aug 2021	8	9	0	17
Sep 2021	11	10	0	21
Oct 2021	10	29	0	39
Nov 2021	12	23	0	35
Dec 2021	15	9	1	25
Jan 2022	7	6	0	13
Feb 2022	10	8	1	19
Mar 2022	7	6	0	13
Apr 2022	21	8	1	30
May 2022	8	1	0	9
Jun 2022	3	2	0	5
Jul 2022	21	4	0	25
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Sep 2022	56	2	0	58
Oct 2022	20	3	0	23
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Dec 2022	19	3	0	22
Jan 2023	16	12	0	28
Feb 2023	16	3	0	19
Mar 2023	16	7	1	24
Apr 2023	4	1	0	5
May 2023	7	10	0	17
Jun 2023	15	11	2	28
Jul 2023	7	9	1	17
Aug 2023	14	13	3	30
Sep 2023	12	6	0	18
Oct 2023	8	6	1	15
Nov 2023	16	6	1	23
Dec 2023	14	11	1	26
Jan 2024	170	5	1	176
Feb 2024	16	7	1	24
Mar 2024	15	11	1	27
Apr 2024	15	6	4	25

Cumulative views and downloads (calculated since 03 Sep 2018)

Month	HTML	PDF	XML	Total
Sep 2018	171	29	3	203
Oct 2018	41	8	1	50
Nov 2018	46	16	1	63
Dec 2018	20	8	0	28
Jan 2019	7	6	0	13
Feb 2019	6	2	0	8
Mar 2019	4	9	0	13
Apr 2019	6	9	0	15
May 2019	150	44	7	201
Jun 2019	37	24	0	61
Jul 2019	16	11	0	27
Aug 2019	8	11	2	21
Sep 2019	7	11	0	18
Oct 2019	7	16	1	24
Nov 2019	7	4	0	11
Dec 2019	13	6	0	19
Jan 2020	16	5	0	21
Feb 2020	15	10	3	28
Mar 2020	10	8	0	18
Apr 2020	5	3	0	8
May 2020	19	8	0	27
Jun 2020	16	10	0	26
Jul 2020	17	11	3	31
Aug 2020	24	12	1	37
Sep 2020	13	6	2	21
Oct 2020	4	8	0	12
Nov 2020	3	8	0	11
Dec 2020	11	6	0	17
Jan 2021	11	6	0	17
Feb 2021	11	4	0	15
Mar 2021	8	6	0	14
Apr 2021	11	11	0	22
May 2021	13	3	2	18
Jun 2021	30	4	1	35
Jul 2021	6	6	0	12
Aug 2021	8	9	0	17
Sep 2021	11	10	0	21
Oct 2021	10	29	0	39
Nov 2021	12	23	0	35
Dec 2021	15	9	1	25
Jan 2022	7	6	0	13
Feb 2022	10	8	1	19
Mar 2022	7	6	0	13
Apr 2022	21	8	1	30
May 2022	8	1	0	9
Jun 2022	3	2	0	5
Jul 2022	21	4	0	25
Aug 2022	52	2	0	54
Sep 2022	56	2	0	58
Oct 2022	20	3	0	23
Nov 2022	11	8	1	20
Dec 2022	19	3	0	22
Jan 2023	16	12	0	28
Feb 2023	16	3	0	19
Mar 2023	16	7	1	24
Apr 2023	4	1	0	5
May 2023	7	10	0	17
Jun 2023	15	11	2	28
Jul 2023	7	9	1	17
Aug 2023	14	13	3	30
Sep 2023	12	6	0	18
Oct 2023	8	6	1	15
Nov 2023	16	6	1	23
Dec 2023	14	11	1	26
Jan 2024	170	5	1	176
Feb 2024	16	7	1	24
Mar 2024	15	11	1	27
Apr 2024	15	6	4	25

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Short summary

The mechanism for new particle formation (NPF) in vehicle exhaust is currently unknown. This study focuses on determining the NPF rate in vehicle exhaust caused by sulfuric acid, which is the most promising candidate involved in the NPF process. The NPF rate function obtained in this study helps in examining the NPF mechanism in exhaust plumes, and it can also be used to improve air quality models. The results also imply that the NPF process cannot be fully explained by sulfuric acid only.

Inversely modeling homogeneous H₂SO₄ − H₂O nucleation rate in exhaust-related conditions

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5 citations as recorded by crossref.

5 citations as recorded by crossref.


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