outlining the progress, potential, and high-level scientific gaps in wind energy. The researchers also noted crosscutting opportunities in digitalization and integrated education.article made the case that wind energy technology has grown in turbine sizes, plant scales, and grid impacts, which forces a reevaluation of the very scientific underpinnings of wind energy,” Veers said. “Wind energy systems are so interconnected that progress in any single area is insufficient.
This graphic illustrates the generations of wind energy development. Each generation’s achievements expanded wind energy’s impact ; however, in moving quickly from generation to generation, some underlying science was left unresolved . Generation 1 delivered working energy conversion systems, Generation 2 offers low-cost and reliable turbines, and Generation 3 is beginning to provide controllable wind plants that support the grid.
“Mesoscale Wind Plant Wakes.” Wakes, or regions of slower and more turbulent air downwind of wind turbines, need to be better understood, as does the impact on local climates that large-scale deployment of wind energy may introduce. “Wind-Farm Flow Control: Prospects and Challenges.” Managing the air flow through wind power plants is a complex challenge but offers opportunities to evolve optimal plant design, enhance production, lower maintenance costs, and provide the controllability demanded by the larger energy system.
“Interdisciplinary Research Challenges in Wind Energy at the Intersection of Engineering and Environmental Science.” Environmental research must define wildlife and habitat impacts of large-scale deployment in collaboration with engineering of wind turbines and plants.
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