Affiliation:
1. Department of Engineering Mechanics, KTH Royal Institute of Technology, 11428 Stockholm, Sweden
2. Department of Earth Sciences, Uppsala University, 75236 Uppsala, Sweden
Abstract
Wind tunnel experiments were performed to investigate the response of a wind turbine model immersed in a replicated atmospheric boundary layer to dynamic changes in the yaw angle. Both the flow field in the wake and the operating properties of the turbine, namely its thrust force, torque, and angular velocity, were monitored during repeated yaw maneuvers for a variety of yaw angles. It was observed that the characteristic time scale of the transient experienced by the turbine scalar quantities was one order of magnitude larger than that of the yaw actuation and depended primarily on the inertia of the rotor and the generator. Furthermore, a Morlet wavelet analysis of the thrust signal showed a strong peak at the rotation frequency of the turbine, with the transient emergence of high activity at a lower frequency during the yaw maneuver. The insights provided by the proper orthogonal decomposition analysis performed on the wake velocity data enabled the development of a simple reduced-order model for the transient in the flow field based on the stationary states before and after the yaw maneuver. This model was then further improved to require only the final state, extending its applicability to any arbitrary wind farm as a dynamical surrogate of the farm behavior.
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference33 articles.
1. REN21 (2023). Renewables 2023 Global Status Report Collection, Renewables in Energy Supply, REN21 Secretariat.
2. Turbulence and Control of Wind Farms;Shapiro;Annu. Rev. Control Robot. Auton.,2022
3. Yaw control for reduction of structural dynamic loads in wind turbines;Ekelund;J. Wind Eng. Ind. Aerodyn.,2000
4. Review of state of the art in smart rotor control research for wind turbines;Barlas;Prog. Aero. Sci. USA,2010
5. Wind farm power optimization through wake steering;Howland;Proc. Natl. Acad. Sci. USA,2019