Abstract

This presentation discusses the motivation, preparation, risk mitigation, execution, and results of a full-scale experiment where the rotor of a 1.5 megawatt wind turbine was operated in a downwind configuration. The experiment took place at the National Renewable Energy Laboratory Flatirons Campus in Colorado, USA, and collected conventional loads and power together with acoustic measurements from an array of four microphones. Results from load simulations complement the experiment. Fatigue loads and performance are compared between 410 minutes of downwind operation with 960 minutes of conventional upwind operations. Downwind operations cause an increase in damage equivalent loads in a few load channels. Damage equivalent load of blade root flapwise and edgewise moment and the damage equivalent load of tower base fore aft moment increase between 2% and 20% depending on the wind speed. The comparison in active power is less conclusive, but experimental results show more power in downwind than predicted by simulations. In terms of acoustics, the overall sound pressure levels are similar between upwind and downwind, but downwind worsens the metrics describing amplitude modulation.
Original languageAmerican English
Number of pages20
StatePublished - 2024

Publication series

NamePresented at the North American Wind Energy Academy (NAWEA)/WindTech 2024 Conference, 30 October - 1 November 2024, New Brunswick, New Jersey

NREL Publication Number

  • NREL/PR-5000-91567

Keywords

  • aeroacoustics
  • amplitude modulation
  • downwind
  • loads
  • upwind
  • wind turbine

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