Validation of an interpretable data-driven wake model using lidar measurements from a field wake steering experiment

Sengers, Balthazar Arnoldus Maria; Steinfeld, Gerald; Hulsman, Paul; Kühn, Martin

doi:10.5194/wes-8-747-2023

Articles | Volume 8, issue 5

https://doi.org/10.5194/wes-8-747-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/wes-8-747-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 8, issue 5

Research article

|

11 May 2023

Research article |

| 11 May 2023

Validation of an interpretable data-driven wake model using lidar measurements from a field wake steering experiment

Balthazar Arnoldus Maria Sengers, Gerald Steinfeld, Paul Hulsman, and Martin Kühn

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Jan 2023	116	48	5	169
Feb 2023	71	36	5	112
Mar 2023	44	29	2	75
Apr 2023	13	13	0	26
May 2023	281	52	5	338
Jun 2023	143	22	2	167
Jul 2023	104	35	2	141
Aug 2023	57	16	2	75
Sep 2023	25	18	1	44
Oct 2023	25	16	1	42
Nov 2023	11	12	0	23
Dec 2023	27	15	5	47
Jan 2024	77	14	0	91
Feb 2024	19	7	1	27
Mar 2024	20	13	2	35
Apr 2024	23	12	3	38
May 2024	23	17	5	45
Jun 2024	94	16	3	113
Jul 2024	221	16	3	240
Aug 2024	47	4	5	56
Sep 2024	15	5	2	22
Oct 2024	21	1	1	23
Nov 2024	14	6	0	20
Dec 2024	14	8	0	22
Jan 2025	19	11	0	30
Feb 2025	24	10	0	34
Mar 2025	28	5	0	33
Apr 2025	28	10	1	39
May 2025	23	19	1	43
Jun 2025	51	23	1	75
Jul 2025	35	13	1	49
Aug 2025	38	25	1	64
Sep 2025	160	14	5	179
Oct 2025	48	18	2	68
Nov 2025	64	46	3	113
Dec 2025	58	20	1	79
Jan 2026	71	36	7	114
Feb 2026	585	30	6	621
Mar 2026	70	30	6	106
Apr 2026	92	44	5	141
May 2026	12	8	1	21

Cumulative views and downloads (calculated since 13 Jan 2023)

Month	HTML	PDF	XML	Total
Jan 2023	116	48	5	169
Feb 2023	71	36	5	112
Mar 2023	44	29	2	75
Apr 2023	13	13	0	26
May 2023	281	52	5	338
Jun 2023	143	22	2	167
Jul 2023	104	35	2	141
Aug 2023	57	16	2	75
Sep 2023	25	18	1	44
Oct 2023	25	16	1	42
Nov 2023	11	12	0	23
Dec 2023	27	15	5	47
Jan 2024	77	14	0	91
Feb 2024	19	7	1	27
Mar 2024	20	13	2	35
Apr 2024	23	12	3	38
May 2024	23	17	5	45
Jun 2024	94	16	3	113
Jul 2024	221	16	3	240
Aug 2024	47	4	5	56
Sep 2024	15	5	2	22
Oct 2024	21	1	1	23
Nov 2024	14	6	0	20
Dec 2024	14	8	0	22
Jan 2025	19	11	0	30
Feb 2025	24	10	0	34
Mar 2025	28	5	0	33
Apr 2025	28	10	1	39
May 2025	23	19	1	43
Jun 2025	51	23	1	75
Jul 2025	35	13	1	49
Aug 2025	38	25	1	64
Sep 2025	160	14	5	179
Oct 2025	48	18	2	68
Nov 2025	64	46	3	113
Dec 2025	58	20	1	79
Jan 2026	71	36	7	114
Feb 2026	585	30	6	621
Mar 2026	70	30	6	106
Apr 2026	92	44	5	141
May 2026	12	8	1	21

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Short summary

The optimal misalignment angles for wake steering are determined using wake models. Although mostly analytical, data-driven models have recently shown promising results. This study validates a previously proposed data-driven model with results from a field experiment using lidar measurements. In a comparison with a state-of-the-art analytical model, it shows systematically more accurate estimates of the available power. Also when using only commonly available input data, it gives good results.

Validation of an interpretable data-driven wake model using lidar measurements from a field wake steering experiment

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