Experimental validation of a short-term  damping estimation method for wind turbines  in nonstationary operating conditions

Ebbehøj, Kristian Ladefoged; Couturier, Philippe Jacques; Sørensen, Lars Morten; Thomsen, Jon Juel

doi:10.5194/wes-9-1005-2024

Articles | Volume 9, issue 4

https://doi.org/10.5194/wes-9-1005-2024

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

https://doi.org/10.5194/wes-9-1005-2024

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

Articles | Volume 9, issue 4

Research article

|

24 Apr 2024

Research article |

| 24 Apr 2024

Experimental validation of a short-term damping estimation method for wind turbines in nonstationary operating conditions

Kristian Ladefoged Ebbehøj, Philippe Jacques Couturier, Lars Morten Sørensen, and Jon Juel Thomsen

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Apr 2024	114	25	5	144
May 2024	145	23	10	178
Jun 2024	248	18	6	272
Jul 2024	87	20	5	112
Aug 2024	31	4	3	38
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Oct 2024	25	4	1	30
Nov 2024	15	5	0	20
Dec 2024	14	11	2	27
Jan 2025	15	11	0	26
Feb 2025	31	11	1	43
Mar 2025	22	8	1	31
Apr 2025	22	15	0	37
May 2025	32	11	1	44
Jun 2025	57	37	1	95
Jul 2025	34	15	0	49
Aug 2025	31	16	2	49
Sep 2025	83	18	0	101
Oct 2025	46	22	2	70
Nov 2025	68	50	3	121
Dec 2025	104	22	4	130
Jan 2026	149	86	9	244
Feb 2026	235	59	6	300
Mar 2026	169	232	2	403
Apr 2026	59	158	3	220
May 2026	133	114	4	251
Jun 2026	3	9	0	12

Cumulative views and downloads (calculated since 14 Dec 2023)

Month	HTML	PDF	XML	Total
Dec 2023	85	23	3	111
Jan 2024	87	12	5	104
Feb 2024	72	7	5	84
Mar 2024	48	10	0	58
Apr 2024	114	25	5	144
May 2024	145	23	10	178
Jun 2024	248	18	6	272
Jul 2024	87	20	5	112
Aug 2024	31	4	3	38
Sep 2024	21	9	1	31
Oct 2024	25	4	1	30
Nov 2024	15	5	0	20
Dec 2024	14	11	2	27
Jan 2025	15	11	0	26
Feb 2025	31	11	1	43
Mar 2025	22	8	1	31
Apr 2025	22	15	0	37
May 2025	32	11	1	44
Jun 2025	57	37	1	95
Jul 2025	34	15	0	49
Aug 2025	31	16	2	49
Sep 2025	83	18	0	101
Oct 2025	46	22	2	70
Nov 2025	68	50	3	121
Dec 2025	104	22	4	130
Jan 2026	149	86	9	244
Feb 2026	235	59	6	300
Mar 2026	169	232	2	403
Apr 2026	59	158	3	220
May 2026	133	114	4	251
Jun 2026	3	9	0	12

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Short summary

This paper experimentally validates a novel method for characterizing wind turbine dynamics based on vibration measurements. The dynamics of wind turbines can change over short time periods if the operational conditions change. In such cases, conventional methods are inadequate. The validation is performed with a controlled laboratory experiment and a full-scale wind turbine test. More accurate characterization could lead to more efficient wind turbine designs and in turn cheaper wind energy.