Comparison between CFD simulations and experiments for predicting the far wake of horizontal axis tidal turbines

@article{Harrison2010ComparisonBC,
  title={Comparison between CFD simulations and experiments for predicting the far wake of horizontal axis tidal turbines},
  author={M. E. Harrison and W. M. J. Batten and L. E. Myers and Abubakr S. Bahaj},
  journal={Iet Renewable Power Generation},
  year={2010},
  volume={4},
  pages={613-627}
}
The actuator disc is a useful method for parameterising a tidal stream turbine in a solution of the Reynolds-averaged Navier–Stokes equations. An actuator disc is a region where similar forces are applied to a flow as would be imposed by a turbine. It is useful where large-scale flow characteristics are of interest, such as the far wake, free surface effects, or installation of multi-turbine arrays. This study compares the characteristics of the wake of an actuator disc, modelled using a steady… 
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Comparisons show that the model is accurate and can predict up to 94 per cent of the variation in the experimental velocity data measured on the centreline of the wake, demonstrating that the actuator disc-RANS model is an accurate approach for modelling a turbine wake, and a conservative approach to predict performance and loads.

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