Litcius/Paper detail

Offshore Wind Turbines Will Encounter Very Low Atmospheric Turbulence

N Bodini, J K Lundquist, A Kirincich

2020Journal of Physics Conference Series18 citationsDOIOpen Access PDF

Abstract

The rapid growth of offshore wind energy requires accurate modeling of the wind resource, which can be depleted by wind farm wakes. Turbulence dissipation rate governs the accuracy of model predictions of hub-height wind speed and the development and erosion of wakes. Here we assess the variability of turbulence kinetic energy and dissipation rate using 13 months of observations from a profiling lidar deployed on a platform off the Massachusetts coast. Offshore, turbulence dissipation rate is 2 orders of magnitude smaller than onshore, with a subtle diurnal cycle. Wind direction largely influences the annual cycle of turbulence, with larger values in winter when the wind flows from the land, and smaller values in summer, when the wind is mainly from open ocean. Because of the weak turbulence, wind plant wakes will be stronger and persist farther downwind in summer.

Topics & Concepts

Offshore wind powerTurbulenceEnvironmental scienceSubmarine pipelineMeteorologyWakeLidarMarine engineeringTurbulence kinetic energyWind powerAtmospheric turbulenceMaximum sustained windWind gradientWind profile power lawWind engineeringWind shearWind speedWind stressWake turbulenceGeologyWind directionAtmospheric instabilityAtmospheric sciencesSea breezePlanetary boundary layerWind Energy Research and DevelopmentOcean Waves and Remote SensingWave and Wind Energy Systems
Offshore Wind Turbines Will Encounter Very Low Atmospheric Turbulence | Litcius