A bin microphysics parcel model  investigation of secondary ice formation  in an idealised shallow convective cloud

James, Rachel L.; Crosier, Jonathan; Connolly, Paul J.

doi:https://doi.org/10.5194/acp-23-9099-2023

Articles | Volume 23, issue 16

https://doi.org/10.5194/acp-23-9099-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-23-9099-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 23, issue 16

Research article

|

17 Aug 2023

Research article |

| 17 Aug 2023

A bin microphysics parcel model investigation of secondary ice formation in an idealised shallow convective cloud

Rachel L. James, Jonathan Crosier, and Paul J. Connolly

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Feb 2023	27	22	2	51
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May 2023	55	26	5	86
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Jul 2023	55	12	1	68
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Sep 2023	152	29	3	184
Oct 2023	129	27	2	158
Nov 2023	63	14	0	77
Dec 2023	80	26	4	110
Jan 2024	63	13	0	76
Feb 2024	32	14	0	46
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May 2024	45	12	0	57
Jun 2024	89	16	3	108
Jul 2024	62	16	4	82
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Dec 2024	48	21	2	71
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Feb 2025	43	16	1	60
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Jun 2025	89	18	0	107
Jul 2025	60	11	2	73
Aug 2025	56	19	1	76
Sep 2025	181	12	1	194
Oct 2025	53	23	0	76

Cumulative views and downloads (calculated since 24 Oct 2022)

Month	HTML	PDF	XML	Total
Oct 2022	118	17	1	136
Nov 2022	47	16	0	63
Dec 2022	22	11	0	33
Jan 2023	47	18	3	68
Feb 2023	27	22	2	51
Mar 2023	19	14	0	33
Apr 2023	16	13	0	29
May 2023	55	26	5	86
Jun 2023	54	3	0	57
Jul 2023	55	12	1	68
Aug 2023	257	56	9	322
Sep 2023	152	29	3	184
Oct 2023	129	27	2	158
Nov 2023	63	14	0	77
Dec 2023	80	26	4	110
Jan 2024	63	13	0	76
Feb 2024	32	14	0	46
Mar 2024	37	28	1	66
Apr 2024	46	16	3	65
May 2024	45	12	0	57
Jun 2024	89	16	3	108
Jul 2024	62	16	4	82
Aug 2024	57	16	4	77
Sep 2024	36	9	0	45
Oct 2024	48	4	0	52
Nov 2024	36	4	2	42
Dec 2024	48	21	2	71
Jan 2025	59	14	3	76
Feb 2025	43	16	1	60
Mar 2025	56	11	1	68
Apr 2025	48	13	1	62
May 2025	82	13	1	96
Jun 2025	89	18	0	107
Jul 2025	60	11	2	73
Aug 2025	56	19	1	76
Sep 2025	181	12	1	194
Oct 2025	53	23	0	76

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Short summary

Secondary ice production (SIP) may significantly enhance the ice particle concentration in mixed-phase clouds. We present a systematic modelling study of secondary ice formation in idealised shallow convective clouds for various conditions. Our results suggest that the SIP mechanism of collisions of supercooled water drops with more massive ice particles may be a significant ice formation mechanism in shallow convective clouds outside the rime-splintering temperature range (−3 to −8 °C).

A bin microphysics parcel model investigation of secondary ice formation in an idealised shallow convective cloud

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