Analytical Model for Mean Flow and Fluxes of Momentum and Energy in Very Large Wind Farms |
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Authors: | Corey D. Markfort Wei Zhang Fernando Porté-Agel |
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Affiliation: | 1.IIHR-Hydroscience & Engineering,The University of Iowa,Iowa City,USA;2.Department of Mechanical Engineering,Cleveland State University,Cleveland,USA;3.Wind Engineering and Renewable Energy Laboratory (WIRE), ENAC-IIE-WIRE,école Polytechnique Fédérale de Lausanne (EPFL),Lausanne,Switzerland |
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Abstract: | As wind-turbine arrays continue to be installed and the array size continues to grow, there is an increasing need to represent very large wind-turbine arrays in numerical weather prediction models, for wind-farm optimization, and for environmental assessment. We propose a simple analytical model for boundary-layer flow in fully-developed wind-turbine arrays, based on the concept of sparsely-obstructed shear flows. In describing the vertical distribution of the mean wind speed and shear stress within wind farms, our model estimates the mean kinetic energy harvested from the atmospheric boundary layer, and determines the partitioning between the wind power captured by the wind turbines and that absorbed by the underlying land or water. A length scale based on the turbine geometry, spacing, and performance characteristics, is able to estimate the asymptotic limit for the fully-developed flow through wind-turbine arrays, and thereby determine if the wind-farm flow is fully developed for very large turbine arrays. Our model is validated using data collected in controlled wind-tunnel experiments, and its usefulness for the prediction of wind-farm performance and optimization of turbine-array spacing are described. Our model may also be useful for assessing the extent to which the extraction of wind power affects the land–atmosphere coupling or air–water exchange of momentum, with implications for the transport of heat, moisture, trace gases such as carbon dioxide, methane, and nitrous oxide, and ecologically important oxygen. |
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