Breakdown of the velocity and turbulence in the wake  of a wind turbine – Part 2: Analytical modelling

Jézéquel, Erwan; Blondel, Frédéric; Masson, Valéry

doi:10.5194/wes-9-119-2024

Articles | Volume 9, issue 1

https://doi.org/10.5194/wes-9-119-2024

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

https://doi.org/10.5194/wes-9-119-2024

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

Articles | Volume 9, issue 1

Research article

|

18 Jan 2024

Research article |

| 18 Jan 2024

Breakdown of the velocity and turbulence in the wake of a wind turbine – Part 2: Analytical modelling

Erwan Jézéquel, Frédéric Blondel, and Valéry Masson

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Views and downloads (calculated since 31 May 2022)

Month	HTML	PDF	XML	Total
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Jun 2022	102	31	7	140
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Aug 2022	47	17	0	64
Sep 2022	37	8	0	45
Oct 2022	24	10	0	34
Nov 2022	18	1	0	19
Dec 2022	16	1	0	17
Jan 2023	15	5	1	21
Feb 2023	33	10	0	43
Mar 2023	25	4	1	30
Apr 2023	18	4	0	22
May 2023	17	5	1	23
Jun 2023	12	4	0	16
Jul 2023	14	11	1	26
Aug 2023	24	3	1	28
Sep 2023	25	5	1	31
Oct 2023	15	7	0	22
Nov 2023	11	6	0	17
Dec 2023	22	7	2	31
Jan 2024	102	33	2	137
Feb 2024	92	18	2	112
Mar 2024	70	17	1	88
Apr 2024	71	9	3	83
May 2024	29	16	1	46
Jun 2024	85	14	2	101
Jul 2024	203	15	6	224
Aug 2024	29	11	3	43
Sep 2024	26	14	1	41
Oct 2024	30	11	2	43
Nov 2024	11	3	1	15
Dec 2024	20	7	1	28
Jan 2025	20	9	0	29
Feb 2025	21	6	0	27
Mar 2025	20	3	0	23
Apr 2025	25	9	1	35
May 2025	40	6	1	47
Jun 2025	51	18	1	70
Jul 2025	40	15	1	56
Aug 2025	53	6	1	60
Sep 2025	66	21	0	87
Oct 2025	76	41	9	126
Nov 2025	192	38	20	250
Dec 2025	51	25	2	78
Jan 2026	168	22	9	199
Feb 2026	353	24	10	387
Mar 2026	43	45	3	91
Apr 2026	66	41	5	112
May 2026	135	24	3	162
Jun 2026	13	8	1	22

Cumulative views and downloads (calculated since 31 May 2022)

Month	HTML	PDF	XML	Total
May 2022	26	7	1	34
Jun 2022	102	31	7	140
Jul 2022	51	20	0	71
Aug 2022	47	17	0	64
Sep 2022	37	8	0	45
Oct 2022	24	10	0	34
Nov 2022	18	1	0	19
Dec 2022	16	1	0	17
Jan 2023	15	5	1	21
Feb 2023	33	10	0	43
Mar 2023	25	4	1	30
Apr 2023	18	4	0	22
May 2023	17	5	1	23
Jun 2023	12	4	0	16
Jul 2023	14	11	1	26
Aug 2023	24	3	1	28
Sep 2023	25	5	1	31
Oct 2023	15	7	0	22
Nov 2023	11	6	0	17
Dec 2023	22	7	2	31
Jan 2024	102	33	2	137
Feb 2024	92	18	2	112
Mar 2024	70	17	1	88
Apr 2024	71	9	3	83
May 2024	29	16	1	46
Jun 2024	85	14	2	101
Jul 2024	203	15	6	224
Aug 2024	29	11	3	43
Sep 2024	26	14	1	41
Oct 2024	30	11	2	43
Nov 2024	11	3	1	15
Dec 2024	20	7	1	28
Jan 2025	20	9	0	29
Feb 2025	21	6	0	27
Mar 2025	20	3	0	23
Apr 2025	25	9	1	35
May 2025	40	6	1	47
Jun 2025	51	18	1	70
Jul 2025	40	15	1	56
Aug 2025	53	6	1	60
Sep 2025	66	21	0	87
Oct 2025	76	41	9	126
Nov 2025	192	38	20	250
Dec 2025	51	25	2	78
Jan 2026	168	22	9	199
Feb 2026	353	24	10	387
Mar 2026	43	45	3	91
Apr 2026	66	41	5	112
May 2026	135	24	3	162
Jun 2026	13	8	1	22

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Short summary

Analytical models allow us to quickly compute the decreased power output and lifetime induced by wakes in a wind farm. This is achieved by evaluating the modified velocity and turbulence in the wake. In this work, we present a new model based on the velocity and turbulence breakdowns presented in Part 1. This new model is physically based, allows us to compute the whole turbulence profile (rather than the maximum value) and is built to take atmospheric stability into account.