Litcius/Paper detail

New methods to improve the vertical extrapolation of near-surface offshore wind speeds

Mike Optis, Nicola Bodini, Mithu Debnath, Paula Doubrawa

2021Wind energy science49 citationsDOIOpen Access PDF

Abstract

Abstract. Accurate characterization of the offshore wind resource has been hindered by a sparsity of wind speed observations that span offshore wind turbine rotor-swept heights. Although public availability of floating lidar data is increasing, most offshore wind speed observations continue to come from buoy-based and satellite-based near-surface measurements. The aim of this study is to develop and validate novel vertical extrapolation methods that can accurately estimate wind speed time series across rotor-swept heights using these near-surface measurements. We contrast the conventional logarithmic profile against three novel approaches: a logarithmic profile with a long-term stability correction, a single-column model, and a machine-learning model. These models are developed and validated using 1 year of observations from two floating lidars deployed in US Atlantic offshore wind energy areas. We find that the machine-learning model significantly outperforms all other models across all stability regimes, seasons, and times of day. Machine-learning model performance is considerably improved by including the air–sea temperature difference, which provides some accounting for offshore atmospheric stability. Finally, we find no degradation in machine-learning model performance when tested 83 km from its training location, suggesting promising future applications in extrapolating 10 m wind speeds from spatially resolved satellite-based wind atlases.

Topics & Concepts

ExtrapolationWind speedOffshore wind powerLidarSubmarine pipelineEnvironmental scienceMeteorologyTurbineWind powerBuoySatelliteComputer scienceMarine engineeringGeologyRemote sensingEngineeringAerospace engineeringGeographyMathematicsGeotechnical engineeringElectrical engineeringMathematical analysisWind Energy Research and DevelopmentOceanographic and Atmospheric ProcessesOcean Waves and Remote Sensing