Design, steady performance and wake  characterization of a scaled wind turbine  with pitch, torque and yaw actuation

Nanos, Emmanouil M.; Bottasso, Carlo L.; Campagnolo, Filippo; Mühle, Franz; Letizia, Stefano; Iungo, G. Valerio; Rotea, Mario A.

doi:10.5194/wes-7-1263-2022

Articles | Volume 7, issue 3

https://doi.org/10.5194/wes-7-1263-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/wes-7-1263-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 7, issue 3

Research article

|

21 Jun 2022

Research article |

| 21 Jun 2022

Design, steady performance and wake characterization of a scaled wind turbine with pitch, torque and yaw actuation

Emmanouil M. Nanos, Carlo L. Bottasso, Filippo Campagnolo, Franz Mühle, Stefano Letizia, G. Valerio Iungo, and Mario A. Rotea

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Jul 2021	133	69	5	207
Aug 2021	64	25	2	91
Sep 2021	25	10	1	36
Oct 2021	9	13	0	22
Nov 2021	30	21	0	51
Dec 2021	21	11	1	33
Jan 2022	17	12	0	29
Feb 2022	32	12	1	45
Mar 2022	34	10	1	45
Apr 2022	9	10	2	21
May 2022	17	13	0	30
Jun 2022	129	41	5	175
Jul 2022	110	34	1	145
Aug 2022	70	25	2	97
Sep 2022	49	12	0	61
Oct 2022	23	11	2	36
Nov 2022	58	29	0	87
Dec 2022	24	19	2	45
Jan 2023	26	28	1	55
Feb 2023	30	19	1	50
Mar 2023	60	16	2	78
Apr 2023	21	15	2	38
May 2023	38	15	1	54
Jun 2023	27	31	0	58
Jul 2023	24	25	1	50
Aug 2023	22	13	2	37
Sep 2023	32	13	1	46
Oct 2023	19	12	3	34
Nov 2023	8	6	1	15
Dec 2023	30	11	2	43
Jan 2024	128	13	0	141
Feb 2024	56	17	1	74
Mar 2024	60	18	0	78
Apr 2024	40	11	2	53
May 2024	37	14	3	54
Jun 2024	53	19	3	75
Jul 2024	324	10	4	338
Aug 2024	53	12	3	68
Sep 2024	38	14	1	53
Oct 2024	37	10	3	50
Nov 2024	37	6	0	43
Dec 2024	56	10	2	68
Jan 2025	41	23	0	64
Feb 2025	46	20	1	67
Mar 2025	67	11	1	79
Apr 2025	79	20	1	100
May 2025	86	15	1	102
Jun 2025	86	29	1	116
Jul 2025	86	16	1	103
Aug 2025	100	31	0	131
Sep 2025	131	22	5	158
Oct 2025	102	27	2	131
Nov 2025	226	65	2	293
Dec 2025	87	71	2	160
Jan 2026	109	78	9	196
Feb 2026	357	73	4	434
Mar 2026	70	226	3	299
Apr 2026	108	156	6	270
May 2026	190	138	4	332
Jun 2026	9	17	0	26

Cumulative views and downloads (calculated since 06 Jul 2021)

Month	HTML	PDF	XML	Total
Jul 2021	133	69	5	207
Aug 2021	64	25	2	91
Sep 2021	25	10	1	36
Oct 2021	9	13	0	22
Nov 2021	30	21	0	51
Dec 2021	21	11	1	33
Jan 2022	17	12	0	29
Feb 2022	32	12	1	45
Mar 2022	34	10	1	45
Apr 2022	9	10	2	21
May 2022	17	13	0	30
Jun 2022	129	41	5	175
Jul 2022	110	34	1	145
Aug 2022	70	25	2	97
Sep 2022	49	12	0	61
Oct 2022	23	11	2	36
Nov 2022	58	29	0	87
Dec 2022	24	19	2	45
Jan 2023	26	28	1	55
Feb 2023	30	19	1	50
Mar 2023	60	16	2	78
Apr 2023	21	15	2	38
May 2023	38	15	1	54
Jun 2023	27	31	0	58
Jul 2023	24	25	1	50
Aug 2023	22	13	2	37
Sep 2023	32	13	1	46
Oct 2023	19	12	3	34
Nov 2023	8	6	1	15
Dec 2023	30	11	2	43
Jan 2024	128	13	0	141
Feb 2024	56	17	1	74
Mar 2024	60	18	0	78
Apr 2024	40	11	2	53
May 2024	37	14	3	54
Jun 2024	53	19	3	75
Jul 2024	324	10	4	338
Aug 2024	53	12	3	68
Sep 2024	38	14	1	53
Oct 2024	37	10	3	50
Nov 2024	37	6	0	43
Dec 2024	56	10	2	68
Jan 2025	41	23	0	64
Feb 2025	46	20	1	67
Mar 2025	67	11	1	79
Apr 2025	79	20	1	100
May 2025	86	15	1	102
Jun 2025	86	29	1	116
Jul 2025	86	16	1	103
Aug 2025	100	31	0	131
Sep 2025	131	22	5	158
Oct 2025	102	27	2	131
Nov 2025	226	65	2	293
Dec 2025	87	71	2	160
Jan 2026	109	78	9	196
Feb 2026	357	73	4	434
Mar 2026	70	226	3	299
Apr 2026	108	156	6	270
May 2026	190	138	4	332
Jun 2026	9	17	0	26

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Short summary

The paper describes the design of a scaled wind turbine in detail, for studying wakes and wake control applications in the known, controllable and repeatable conditions of a wind tunnel. The scaled model is characterized by conducting experiments in two wind tunnels, in different conditions, using different measurement equipment. Results are also compared to predictions obtained with models of various fidelity. The analysis indicates that the model fully satisfies the initial requirements.