Wind Plant Wake Losses: Disconnect Between Turbine Actuation and Control of Plant Wakes with Engineering Wake Models: Article No. 043303

Research output: Contribution to journalArticlepeer-review

Abstract

Wake losses from neighboring plants may become a major factor in wind plant design and control as additional plants are constructed in areas with high wind resource availability. Because plant wakes span a large range of physical scales, from turbine rotor diameter to tens of kilometers, it is unclear whether conventional wake models or turbine control strategies are effective at the plant scale. Wake steering and axial induction control are evaluated in the current work as means of reducing the impact of neighboring wind plants on power and levelized cost of electricity. FLOw Redirection and Induction in Steady State (FLORIS) simulations were performed with the Gauss-Curl Hybrid and TurbOPark wake models as well as two operation and maintenance models to investigate control setpoint sensitivity to wake representation and economic factors. Both wake models estimate losses across a range of atmospheric conditions, although the wake loss magnitude is dependent on the wake model. Annual energy production and levelized cost of electricity are driven by wind direction frequency, with frequently aligned plants experiencing the greatest losses. However, both wake steering and axial induction are unable to mitigate the impact of upstream plants. Wake steering is constrained by plant geometry, since wake displacement is much less than the plant wake width, while axial induction requires curtailing the majority of turbines in upstream plants. Individual turbine strategies are limited by their effective scale and model representation. New wake models that include plant-scale physics are needed to facilitate the design of effective plant wake control strategies.
Original languageAmerican English
Number of pages12
JournalJournal of Renewable and Sustainable Energy
Volume16
Issue number4
DOIs
StatePublished - 2024

NREL Publication Number

  • NREL/JA-5000-89171

Keywords

  • annual energy production
  • capacity factor
  • energy development
  • energy efficiency
  • plant design
  • renewable energy
  • turbulence simulations
  • wind energy
  • wind turbines

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