A parameterization scheme for the floating wind farm in a coupled atmosphere–wave model (COAWST v3.7)

Deng, Shaokun; Yang, Shengmu; Chen, Shengli; Chen, Daoyi; Yang, Xuefeng; Cui, Shanshan

doi:10.5194/gmd-17-4891-2024

Articles | Volume 17, issue 12

https://doi.org/10.5194/gmd-17-4891-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/gmd-17-4891-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 17, issue 12

Development and technical paper

|

21 Jun 2024

Development and technical paper |

| 21 Jun 2024

A parameterization scheme for the floating wind farm in a coupled atmosphere–wave model (COAWST v3.7)

Shaokun Deng, Shengmu Yang, Shengli Chen, Daoyi Chen, Xuefeng Yang, and Shanshan Cui

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Since the preprint corresponding to this journal article was posted outside of Copernicus Publications, the preprint-related metrics are limited to HTML views.

Total article views: 2,778 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,867	809	102	2,778	92	156

HTML: 1,867
PDF: 809
XML: 102
Total: 2,778
BibTeX: 92
EndNote: 156

Views and downloads (calculated since 15 Dec 2023)

Month	HTML	PDF	XML	Total
Dec 2023	96	0	96
Jan 2024	60	0	60
Feb 2024	27	0	27
Mar 2024	18	0	18
Apr 2024	21	0	21
May 2024	19	0	19
Jun 2024	120	26	11	157
Jul 2024	86	14	3	103
Aug 2024	48	21	4	73
Sep 2024	42	13	1	56
Oct 2024	30	15	2	47
Nov 2024	68	9	2	79
Dec 2024	35	14	1	50
Jan 2025	27	18	5	50
Feb 2025	42	17	5	64
Mar 2025	30	20	0	50
Apr 2025	27	42	2	71
May 2025	39	23	0	62
Jun 2025	50	19	1	70
Jul 2025	31	38	3	72
Aug 2025	104	30	4	138
Sep 2025	207	59	6	272
Oct 2025	107	61	9	177
Nov 2025	101	60	12	173
Dec 2025	85	41	8	134
Jan 2026	107	39	8	154
Feb 2026	66	45	5	116
Mar 2026	79	76	5	160
Apr 2026	91	108	4	203
May 2026	4	1	1	6

Cumulative views and downloads (calculated since 15 Dec 2023)

Month	HTML	PDF	XML	Total
Dec 2023	96	0	96
Jan 2024	60	0	60
Feb 2024	27	0	27
Mar 2024	18	0	18
Apr 2024	21	0	21
May 2024	19	0	19
Jun 2024	120	26	11	157
Jul 2024	86	14	3	103
Aug 2024	48	21	4	73
Sep 2024	42	13	1	56
Oct 2024	30	15	2	47
Nov 2024	68	9	2	79
Dec 2024	35	14	1	50
Jan 2025	27	18	5	50
Feb 2025	42	17	5	64
Mar 2025	30	20	0	50
Apr 2025	27	42	2	71
May 2025	39	23	0	62
Jun 2025	50	19	1	70
Jul 2025	31	38	3	72
Aug 2025	104	30	4	138
Sep 2025	207	59	6	272
Oct 2025	107	61	9	177
Nov 2025	101	60	12	173
Dec 2025	85	41	8	134
Jan 2026	107	39	8	154
Feb 2026	66	45	5	116
Mar 2026	79	76	5	160
Apr 2026	91	108	4	203
May 2026	4	1	1	6

Viewed (geographical distribution)

Since the preprint corresponding to this journal article was posted outside of Copernicus Publications, the preprint-related metrics are limited to HTML views.

Total article views: 2,778 (including HTML, PDF, and XML) Thereof 2,770 with geography defined and 8 with unknown origin.

Country	#	Views	%

1

1

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Latest update: 04 May 2026

Short summary

Global offshore wind power development is moving from offshore to deeper waters, where floating offshore wind turbines have an advantage over bottom-fixed turbines. However, current wind farm parameterization schemes in mesoscale models are not applicable to floating turbines. We propose a floating wind farm parameterization scheme that accounts for the attenuation of the significant wave height by floating turbines. The results indicate that it has a significant effect on the power output.

A parameterization scheme for the floating wind farm in a coupled atmosphere–wave model (COAWST v3.7)

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1 citations as recorded by crossref.

1 citations as recorded by crossref.

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