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Opportunities for and challenges to further reductions in the “specific power” rating of wind turbines installed in the United States

Mark Bolinger, Eric Lantz, Ryan Wiser, Ben Hoen, Joseph Rand, Rob Hammond

2020Wind Engineering56 citationsDOIOpen Access PDF

Abstract

A wind turbine’s “specific power” rating relates its capacity to the swept area of its rotor in terms of Watt per square meter. For a given generator capacity, specific power declines as rotor size increases. In land-rich but capacity-constrained wind power markets, such as the United States, developers have an economic incentive to maximize megawatt-hours per constrained megawatt, and so have favored turbines with ever-lower specific power. To date, this trend toward lower specific power has pushed capacity factors higher while reducing the levelized cost of energy. We employ geospatial levelized cost of energy analysis across the United States to explore whether this trend is likely to continue. We find that under reasonable cost scenarios (i.e. presuming that logistical challenges from very large blades are surmountable), low-specific-power turbines could continue to be in demand going forward. Beyond levelized cost of energy, the boost in market value that low-specific-power turbines provide could become increasingly important as wind penetration grows.

Topics & Concepts

Cost of electricity by sourceWind powerTurbineEnvironmental economicsElectricity generationPower (physics)Reliability engineeringEngineeringElectrical engineeringEconomicsAerospace engineeringPhysicsQuantum mechanicsWind Energy Research and DevelopmentSocial Acceptance of Renewable EnergyElectric Power System Optimization
Opportunities for and challenges to further reductions in the “specific power” rating of wind turbines installed in the United States | Litcius