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

Viewed

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: 1,686 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,333	276	77	1,686	85	140

HTML: 1,333
PDF: 276
XML: 77
Total: 1,686
BibTeX: 85
EndNote: 140

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	90	15	4	109
Jul 2024	66	11	2	79
Aug 2024	28	16	4	48
Sep 2024	33	5	1	39
Oct 2024	29	9	2	40
Nov 2024	67	6	2	75
Dec 2024	31	10	1	42
Jan 2025	22	14	5	41
Feb 2025	35	11	5	51
Mar 2025	29	8	0	37
Apr 2025	24	13	2	39
May 2025	32	11	0	43
Jun 2025	41	14	1	56
Jul 2025	27	10	3	40
Aug 2025	75	14	4	93
Sep 2025	98	12	5	115
Oct 2025	100	20	9	129
Nov 2025	94	18	12	124
Dec 2025	55	30	8	93
Jan 2026	94	23	6	123
Feb 2026	22	6	1	29

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	90	15	4	109
Jul 2024	66	11	2	79
Aug 2024	28	16	4	48
Sep 2024	33	5	1	39
Oct 2024	29	9	2	40
Nov 2024	67	6	2	75
Dec 2024	31	10	1	42
Jan 2025	22	14	5	41
Feb 2025	35	11	5	51
Mar 2025	29	8	0	37
Apr 2025	24	13	2	39
May 2025	32	11	0	43
Jun 2025	41	14	1	56
Jul 2025	27	10	3	40
Aug 2025	75	14	4	93
Sep 2025	98	12	5	115
Oct 2025	100	20	9	129
Nov 2025	94	18	12	124
Dec 2025	55	30	8	93
Jan 2026	94	23	6	123
Feb 2026	22	6	1	29

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: 1,686 (including HTML, PDF, and XML) Thereof 1,673 with geography defined and 13 with unknown origin.

Country	#	Views	%

1

1

Latest update: 11 Feb 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.


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