Assessing tropical cyclone compound flood risk using hydrodynamic modelling: a case study in Haikou City, China

Liu, Qing; Xu, Hanqing; Wang, Jun

doi:10.5194/nhess-22-665-2022

Articles | Volume 22, issue 2

https://doi.org/10.5194/nhess-22-665-2022

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

Special issue:

Advances in flood forecasting and early warning

https://doi.org/10.5194/nhess-22-665-2022

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

Articles | Volume 22, issue 2

Research article

|

01 Mar 2022

Research article |

| 01 Mar 2022

Assessing tropical cyclone compound flood risk using hydrodynamic modelling: a case study in Haikou City, China

Qing Liu, Hanqing Xu, and Jun Wang

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Total article views: 4,433 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
3,141	1,204	88	4,433	92	121

HTML: 3,141
PDF: 1,204
XML: 88
Total: 4,433
BibTeX: 92
EndNote: 121

Views and downloads (calculated since 10 Nov 2021)

Month	HTML	PDF	XML	Total
Nov 2021	125	37	2	164
Dec 2021	77	22	8	107
Jan 2022	54	22	0	76
Feb 2022	52	16	0	68
Mar 2022	244	54	2	300
Apr 2022	93	40	4	137
May 2022	68	23	2	93
Jun 2022	47	9	0	56
Jul 2022	43	20	0	63
Aug 2022	61	13	1	75
Sep 2022	32	20	1	53
Oct 2022	38	23	0	61
Nov 2022	50	14	0	64
Dec 2022	52	16	1	69
Jan 2023	10	43	1	54
Feb 2023	42	21	0	63
Mar 2023	39	22	2	63
Apr 2023	37	24	3	64
May 2023	46	13	3	62
Jun 2023	35	12	1	48
Jul 2023	38	25	0	63
Aug 2023	51	13	3	67
Sep 2023	122	26	0	148
Oct 2023	215	26	1	242
Nov 2023	188	11	0	199
Dec 2023	50	13	1	64
Jan 2024	61	16	0	77
Feb 2024	30	23	6	59
Mar 2024	47	23	0	70
Apr 2024	63	6	2	71
May 2024	46	8	3	57
Jun 2024	69	21	2	92
Jul 2024	23	13	7	43
Aug 2024	35	13	3	51
Sep 2024	47	11	3	61
Oct 2024	41	14	2	57
Nov 2024	35	11	1	47
Dec 2024	32	12	3	47
Jan 2025	34	15	0	49
Feb 2025	29	16	1	46
Mar 2025	51	13	0	64
Apr 2025	27	19	0	46
May 2025	45	17	2	64
Jun 2025	46	56	0	102
Jul 2025	54	26	2	82
Aug 2025	33	17	2	52
Sep 2025	66	20	1	87
Oct 2025	54	37	4	95
Nov 2025	59	53	2	114
Dec 2025	87	62	2	151
Jan 2026	118	104	4	226

Cumulative views and downloads (calculated since 10 Nov 2021)

Month	HTML	PDF	XML	Total
Nov 2021	125	37	2	164
Dec 2021	77	22	8	107
Jan 2022	54	22	0	76
Feb 2022	52	16	0	68
Mar 2022	244	54	2	300
Apr 2022	93	40	4	137
May 2022	68	23	2	93
Jun 2022	47	9	0	56
Jul 2022	43	20	0	63
Aug 2022	61	13	1	75
Sep 2022	32	20	1	53
Oct 2022	38	23	0	61
Nov 2022	50	14	0	64
Dec 2022	52	16	1	69
Jan 2023	10	43	1	54
Feb 2023	42	21	0	63
Mar 2023	39	22	2	63
Apr 2023	37	24	3	64
May 2023	46	13	3	62
Jun 2023	35	12	1	48
Jul 2023	38	25	0	63
Aug 2023	51	13	3	67
Sep 2023	122	26	0	148
Oct 2023	215	26	1	242
Nov 2023	188	11	0	199
Dec 2023	50	13	1	64
Jan 2024	61	16	0	77
Feb 2024	30	23	6	59
Mar 2024	47	23	0	70
Apr 2024	63	6	2	71
May 2024	46	8	3	57
Jun 2024	69	21	2	92
Jul 2024	23	13	7	43
Aug 2024	35	13	3	51
Sep 2024	47	11	3	61
Oct 2024	41	14	2	57
Nov 2024	35	11	1	47
Dec 2024	32	12	3	47
Jan 2025	34	15	0	49
Feb 2025	29	16	1	46
Mar 2025	51	13	0	64
Apr 2025	27	19	0	46
May 2025	45	17	2	64
Jun 2025	46	56	0	102
Jul 2025	54	26	2	82
Aug 2025	33	17	2	52
Sep 2025	66	20	1	87
Oct 2025	54	37	4	95
Nov 2025	59	53	2	114
Dec 2025	87	62	2	151
Jan 2026	118	104	4	226

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Total article views: 4,433 (including HTML, PDF, and XML) Thereof 4,244 with geography defined and 189 with unknown origin.

Country	#	Views	%

1

1

Latest update: 24 Jan 2026

Short summary

The coastal area is a major floodplain in compound flood events in coastal cities, primarily due to storm tide, with the inundation severity positively correlated with the height of the storm tide. Simply accumulating every single-driven flood hazard (rainstorm inundation and storm tide flooding) to define the compound flood hazard may cause underestimation. The assessment of tropical cyclone compound flood risk can provide vital insight for research on coastal flooding prevention.


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