Idealized simulations of Mei-yu rainfall in Taiwan under uniform southwesterly flow using a cloud-resolving model

Wang, Chung-Chieh; Chuang, Pi-Yu; Chen, Shi-Ting; Lee, Dong-In; Tsuboki, Kazuhisa

doi:https://doi.org/10.5194/nhess-22-1795-2022

Articles | Volume 22, issue 6

https://doi.org/10.5194/nhess-22-1795-2022

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

https://doi.org/10.5194/nhess-22-1795-2022

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

Articles | Volume 22, issue 6

Research article

|

02 Jun 2022

Research article |

| 02 Jun 2022

Idealized simulations of Mei-yu rainfall in Taiwan under uniform southwesterly flow using a cloud-resolving model

Chung-Chieh Wang, Pi-Yu Chuang, Shi-Ting Chen, Dong-In Lee, and Kazuhisa Tsuboki

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Apr 2023	20	7	0	27
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Jun 2023	21	9	1	31
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Sep 2023	14	12	0	26
Oct 2023	11	10	2	23
Nov 2023	7	6	0	13
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Jan 2024	24	6	0	30
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Mar 2024	27	22	2	51
Apr 2024	33	17	3	53
May 2024	34	12	3	49
Jun 2024	62	8	12	82
Jul 2024	27	8	5	40
Aug 2024	33	9	4	46
Sep 2024	30	12	2	44
Oct 2024	32	12	2	46
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Feb 2025	55	24	3	82
Mar 2025	30	9	1	40

Cumulative views and downloads (calculated since 21 Jul 2021)

Month	HTML	PDF	XML	Total
Jul 2021	95	19	2	116
Aug 2021	39	12	0	51
Sep 2021	22	7	2	31
Oct 2021	47	17	4	68
Nov 2021	35	15	2	52
Dec 2021	25	13	0	38
Jan 2022	21	5	0	26
Feb 2022	13	3	0	16
Mar 2022	8	3	2	13
Apr 2022	12	9	1	22
May 2022	5	6	1	12
Jun 2022	224	43	5	272
Jul 2022	70	12	2	84
Aug 2022	60	13	0	73
Sep 2022	119	14	0	133
Oct 2022	51	8	4	63
Nov 2022	48	10	0	58
Dec 2022	49	11	2	62
Jan 2023	37	14	0	51
Feb 2023	37	16	0	53
Mar 2023	49	5	3	57
Apr 2023	20	7	0	27
May 2023	27	9	4	40
Jun 2023	21	9	1	31
Jul 2023	29	20	4	53
Aug 2023	25	10	2	37
Sep 2023	14	12	0	26
Oct 2023	11	10	2	23
Nov 2023	7	6	0	13
Dec 2023	17	6	1	24
Jan 2024	24	6	0	30
Feb 2024	24	15	3	42
Mar 2024	27	22	2	51
Apr 2024	33	17	3	53
May 2024	34	12	3	49
Jun 2024	62	8	12	82
Jul 2024	27	8	5	40
Aug 2024	33	9	4	46
Sep 2024	30	12	2	44
Oct 2024	32	12	2	46
Nov 2024	16	7	0	23
Dec 2024	17	9	2	28
Jan 2025	23	17	2	42
Feb 2025	55	24	3	82
Mar 2025	30	9	1	40

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Short summary

In this study, cloud-resolving simulations are performed under idealized and uniform southwesterly flow direction and speed to investigate the rainfall regimes in the Mei-yu season and the role of complex mesoscale topography on rainfall without the influence of unwanted disturbances, including a low-Froude number regime where the thermodynamic effects and island circulation dominate, a high-Froude number regime where topographic rainfall in a flow-over scenario prevails, and a mixed regime.

Idealized simulations of Mei-yu rainfall in Taiwan under uniform southwesterly flow using a cloud-resolving model

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4 citations as recorded by crossref.

4 citations as recorded by crossref.


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