Technical note: Entrainment-limited kinetics of bimolecular reactions in clouds

Holmes, Christopher D.

doi:https://doi.org/10.5194/acp-22-9011-2022

Articles | Volume 22, issue 13

https://doi.org/10.5194/acp-22-9011-2022

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

https://doi.org/10.5194/acp-22-9011-2022

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

Articles | Volume 22, issue 13

Technical note

|

13 Jul 2022

Technical note |

| 13 Jul 2022

Technical note: Entrainment-limited kinetics of bimolecular reactions in clouds

Christopher D. Holmes

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Dec 2024	4	7	0	11
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Feb 2025	19	16	0	35
Mar 2025	6	2	0	8

Cumulative views and downloads (calculated since 24 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	166	27	4	197
Oct 2021	72	19	2	93
Nov 2021	25	13	0	38
Dec 2021	15	5	1	21
Jan 2022	14	7	3	24
Feb 2022	16	5	3	24
Mar 2022	12	1	1	14
Apr 2022	5	4	0	9
May 2022	7	1	1	9
Jun 2022	27	8	5	40
Jul 2022	271	51	7	329
Aug 2022	91	17	1	109
Sep 2022	71	9	0	80
Oct 2022	48	4	0	52
Nov 2022	70	9	0	79
Dec 2022	60	4	1	65
Jan 2023	17	9	0	26
Feb 2023	14	11	0	25
Mar 2023	16	13	1	30
Apr 2023	8	3	1	12
May 2023	12	9	1	22
Jun 2023	9	8	1	18
Jul 2023	11	11	1	23
Aug 2023	14	17	4	35
Sep 2023	14	6	0	20
Oct 2023	16	10	2	28
Nov 2023	9	7	0	16
Dec 2023	22	6	3	31
Jan 2024	14	6	0	20
Feb 2024	12	5	0	17
Mar 2024	24	19	3	46
Apr 2024	27	9	2	38
May 2024	12	3	2	17
Jun 2024	42	9	2	53
Jul 2024	33	3	4	40
Aug 2024	23	11	3	37
Sep 2024	9	4	0	13
Oct 2024	13	6	1	20
Nov 2024	7	5	1	13
Dec 2024	4	7	0	11
Jan 2025	12	9	1	22
Feb 2025	19	16	0	35
Mar 2025	6	2	0	8

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Cloud water and ice enable reactions that lead to acid rain and alter atmospheric oxidants, among other impacts. This work develops and evaluates an efficient method of simulating cloud chemistry within global and regional atmospheric models in order to better understand the role of clouds in atmospheric chemistry.

Technical note: Entrainment-limited kinetics of bimolecular reactions in clouds

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