A multi-fidelity model intercomparison for wake steering of a large turbine in a conventionally neutral atmospheric boundary layer

Julia Steiner, Emily Louise Hodgson, Maarten Paul van der Laan, Leonardo Alcayaga, Mads Pedersen, Søren Juhl Andersen, Gunner Larsen, and Pierre-Elouan Réthoré

Viewed

Total article views: 913 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
601	263	49	913	54	49

HTML: 601
PDF: 263
XML: 49
Total: 913
BibTeX: 54
EndNote: 49

Views and downloads (calculated since 20 Oct 2025)

Month	HTML	PDF	XML	Total
Oct 2025	148	25	6	179
Nov 2025	99	11	10	120
Dec 2025	89	40	14	143
Jan 2026	75	47	0	122
Feb 2026	69	63	7	139
Mar 2026	34	33	4	71
Apr 2026	65	37	8	110
May 2026	22	7	0	29

Cumulative views and downloads (calculated since 20 Oct 2025)

Month	HTML	PDF	XML	Total
Oct 2025	148	25	6	179
Nov 2025	99	11	10	120
Dec 2025	89	40	14	143
Jan 2026	75	47	0	122
Feb 2026	69	63	7	139
Mar 2026	34	33	4	71
Apr 2026	65	37	8	110
May 2026	22	7	0	29

Viewed (geographical distribution)

Total article views: 913 (including HTML, PDF, and XML) Thereof 893 with geography defined and 20 with unknown origin.

Country	#	Views	%


Total:	0
HTML:	0
PDF:	0
XML:	0


Total:	0
HTML:	0
PDF:	0
XML:	0

Latest update: 11 May 2026

Short summary

Wake steering is a promising strategy for wind farm optimization, but its success hinges on accurate wake models. We assess models of varying fidelity for a 22 MW reference turbine, comparing single- and two-turbine cases against large-eddy simulations. All models reproduced qualitative trends for power and loads (if applicable), but quantitative agreement varied, and in general the error increased with increasing yaw angle.