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Title: Results from a wake-steering experiment at a commercial wind plant: investigating the wind speed dependence of wake-steering performance

Journal Article · · Wind Energy Science (Online)
ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [2];  [3];  [3];  [3]
  1. National Renewable Energy Lab. (NREL), Golden, CO (United States). National Wind Technology Center
  2. ENGIE Digital, Lyon (France)
  3. ENGIE Green, Lyon (France)
+ Show Author Affiliations

Wake steering is a wind farm control strategy in which upstream wind turbines are misaligned with the wind to redirect their wakes away from downstream turbines, thereby increasing the net wind plant power production and reducing fatigue loads generated by wake turbulence. In this paper, we present results from a wake-steering experiment at a commercial wind plant involving two wind turbines spaced 3.7 rotor diameters apart. During the 3-month experiment period, we estimate that wake steering reduced wake losses by 5.6% for the wind direction sector investigated. After applying a long-term correction based on the site wind rose, the reduction in wake losses increases to 9.3%. As a function of wind speed, we find large energy improvements near cut-in wind speed, where wake steering can prevent the downstream wind turbine from shutting down. Yet for wind speeds between 6–8 m/s, we observe little change in performance with wake steering. However, wake steering was found to improve energy production significantly for below-rated wind speeds from 8–12 m/s. By measuring the relationship between yaw misalignment and power production using a nacelle lidar, we attribute much of the improvement in wake-steering performance at higher wind speeds to a significant reduction in the power loss of the upstream turbine as wind speed increases. Additionally, we find higher wind direction variability at lower wind speeds, which contributes to poor performance in the 6–8 m/s wind speed bin because of slow yaw controller dynamics. Further, we compare the measured performance of wake steering to predictions using the FLORIS (FLOw Redirection and Induction in Steady State) wind farm control tool coupled with a wind direction variability model. Although the achieved yaw offsets at the upstream wind turbine fall short of the intended yaw offsets, we find that they are predicted well by the wind direction variability model. When incorporating the expected yaw offsets, estimates of the energy improvement from wake steering using FLORIS closely match the experimental results.

Research Organization:
National Renewable Energy Laboratory (NREL), Golden, CO (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Renewable Power Office. Wind Energy Technologies Office; Agence Nationale de la Recherche (ANR)
Grant/Contract Number:
AC36-08GO28308; ANR-14-CE05-0034
OSTI ID:
1835544
Report Number(s):
NREL/JA-5000-81654; MainId:82427; UUID:f17564a0-6c4e-4b3e-85ce-5d37445bbc33; MainAdminID:63431
Journal Information:
Wind Energy Science (Online), Vol. 6, Issue 6; ISSN 2366-7451
Publisher:
European Wind Energy Association - CopernicusCopyright Statement
Country of Publication:
United States
Language:
English

References (44)

The Coriolis force and the direction of rotation of the blades significantly affect the wake of wind turbines journal November 2020
Wind plant power optimization through yaw control using a parametric model for wake effects-a CFD simulation study: Wind plant optimization by yaw control using a parametric wake model journal December 2014
Wake redirection at higher axial induction journal January 2021
Optimising yaw control at wind farm level journal May 2019
Assessment of wind turbine component loads under yaw-offset conditions journal January 2018
Correcting for regression dilution bias: comparison of methods for a single predictor variable journal June 2000
The ERA5 global reanalysis journal June 2020
Dynamic wake steering and its impact on wind farm power production and yaw actuator duty journal February 2020
Influence of atmospheric conditions on the power production of utility-scale wind turbines in yaw misalignment
  • Howland, Michael F.; González, Carlos Moral; Martínez, Juan José Pena
  • Journal of Renewable and Sustainable Energy, Vol. 12, Issue 6 https://doi.org/10.1063/5.0023746
journal November 2020
Experimental investigation of wake effects on wind turbine performance journal August 2011
Experimental and theoretical study of wind turbine wakes in yawed conditions journal October 2016
Closed-loop model-based wind farm control using FLORIS under time-varying inflow conditions journal August 2020
A new analytical model for wind-turbine wakes journal October 2014
Effects of axial induction control on wind farm energy production - A field test journal September 2019
American WAKE experimeNt (AWAKEN) report May 2020
Wind tunnel testing of wake control strategies conference July 2016
Active wake control: An approach to optimize the lifetime operation of wind farms: Active wake control: An approach to optimize the lifetime operation of wind farms journal February 2018
Robust active wake control in consideration of wind direction variability and uncertainty journal January 2018
Field Validation of Wake Steering Control with Wind Direction Variability journal January 2020
Local turbulence parameterization improves the Jensen wake model and its implementation for power optimization of an operating wind farm journal January 2019
Estimating the wake deflection downstream of a wind turbine in different atmospheric stabilities: an LES study journal January 2016
Potential of power gain with improved yaw alignment: Potential of power gain with improved yaw alignment journal April 2014
A new analytical model for wind farm power prediction journal June 2015
Continued results from a field campaign of wake steering applied at a commercial wind farm – Part 2 journal January 2020
Control-oriented model for secondary effects of wake steering journal January 2021
Field experiment for open-loop yaw-based wake steering at a commercial onshore wind farm in Italy journal January 2021
Optimization Under Uncertainty for Wake Steering Strategies journal May 2017
Analytical model for the power–yaw sensitivity of wind turbines operating in full wake journal January 2020
Wind farm power optimization through wake steering journal July 2019
A simulation study demonstrating the importance of large-scale trailing vortices in wake steering journal January 2018
A tutorial on control-oriented modeling and control of wind farms conference May 2017
Field test of wake steering at an offshore wind farm journal January 2017
Initial results from a field campaign of wake steering applied at a commercial wind farm – Part 1 journal January 2019
Maximization of the annual energy production of wind power plants by optimization of layout and yaw-based wake control: Maximization of wind plant AEP by optimization of layout and wake control journal May 2016
Wind direction estimation using SCADA data with consensus-based optimization journal January 2019
Combining induction control and wake steering for wind farm energy and fatigue loads optimisation journal June 2018
Design and analysis of a wake steering controller with wind direction variability journal January 2020
Wake steering strategies for combined power increase and fatigue damage mitigation: an LES study journal September 2020
Field Implementation and Trial of Coordinated Control of WIND Farms journal July 2018
The aerodynamics of the curled wake: a simplified model in view of flow control journal January 2019
OpenOA: An Open-Source Codebase For Operational Analysis of Wind Farms journal February 2021
Wake steering optimization under uncertainty journal January 2020
Cross-contamination effect on turbulence spectra from Doppler beam swinging wind lidar journal January 2020
Wind farm power optimization via yaw angle control: A wind tunnel study journal March 2019

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Related Subjects

17 WIND ENERGY
field experiment
nacelle lidar
wake steering
wind farm control