Physics of Fluids - Publications

Modeling space‐time correlations of velocity fluctuations in wind farms

arΧiv
Wind Energy 21, 474–487 (2018)

Authors

	Laura Lukassen
	Richard Stevens
	Charles Meneveau
	Michael Wilczek

BibTeΧ

@article{doi:10.1002/we.2172,
author = {Lukassen Laura J. and Stevens Richard J. A. M. and Meneveau Charles and Wilczek Michael},
title = {Modeling space‐time correlations of velocity fluctuations in wind farms},
journal = {Wind Energy},
volume = {21},
number = {7},
pages = {474-487},
keywords = {large eddy simulation, power output fluctuations, space‐time correlations, turbulent flows, wind farms},
doi = {10.1002/we.2172},
url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/we.2172},
eprint = {https://onlinelibrary.wiley.com/doi/pdf/10.1002/we.2172},
abstract = {Abstract An analytical model for the streamwise velocity space‐time correlations in turbulent flows is derived and applied to the special case of velocity fluctuations in large wind farms. The model is based on the Kraichnan‐Tennekes random sweeping hypothesis, capturing the decorrelation in time while including a mean wind velocity in the streamwise direction. In the resulting model, the streamwise velocity space‐time correlation is expressed as a convolution of the pure space correlation with an analytical temporal decorrelation kernel. Hence, the spatiotemporal structure of velocity fluctuations in wind farms can be derived from the spatial correlations only. We then explore the applicability of the model to predict spatiotemporal correlations in turbulent flows in wind farms. Comparisons of the model with data from a large eddy simulation of flow in a large, spatially periodic wind farm are performed, where needed model parameters such as spatial and temporal integral scales and spatial correlations are determined from the large eddy simulation. Good agreement is obtained between the model and large eddy simulation data showing that spatial data may be used to model the full spatiotemporal structure of fluctuations in wind farms.}
}