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Simulating effects of a wind-turbine array using LES and RANS Public Deposited

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https://scholar.colorado.edu/concern/articles/nk322d830
Abstract
  • Growth in wind power production has motivated investigation of wind-farm impacts on in situ flow fields and downstream interactions with agriculture and other wind farms. These impacts can be simulated with both large-eddy simulations (LES) and mesoscale wind-farm parameterizations (WFP). The Weather Research and Forecasting (WRF) model offers both approaches. We used the validated generalized actuator disk (GAD) parameterization in WRF-LES to assess WFP performance. A 12-turbine array was simulated using the GAD model and the WFP in WRF. We examined the performance of each scheme in both convective and stable conditions. The GAD model and WFP produced qualitatively similar wind speed deficits and turbulent kinetic energy (TKE) production across the array in both stability regimes, though the magnitudes of velocity deficits and TKE production levels were underestimated and overestimated, respectively. While wake growth slowed in the latter half of the WFP array as expected, wakes did not approach steady state by the end of the array as simulated by the GAD model. A sensitivity test involving the deactivation of explicit TKE production by the WFP resulted in turbulence levels within the array well that were below those produced by the GAD in both stable and unstable conditions. Finally, the WFP overestimated downwind power production deficits in stable conditions because of the lack of wake stabilization in the latter half of the array. Key Points: * WRF enables LES and RANS turbine array simulation using same dynamics * Explicit TKE source is required for accurate TKE using the mesoscale scheme * Wind-farm model lags LES in growth of wind-turbine array boundary layer.
Creator
Date Issued
  • 2016-08-08
Academic Affiliation
Journal Title
Journal Issue/Number
  • 3
Journal Volume
  • 8
Last Modified
  • 2019-12-05
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DOI
ISSN
  • 1942-2466
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