References

[Keck_2011]

Keck et al., Implementation of a Mixing Length Turbulence Formulation Into the Dynamic Wake Meandering Model, Journal of Solar Energy Engineering, Volume 134, Issue 2, 021012 (13 pages), 2011.

[Keck_2012]

Keck et al., Two Improvements to the Dynamic Wake Meandering Model: Including the Effects of Atmospheric Shear on Wake Turbulence and Incorporating Turbulence Build-up in a Row of Wind Turbines, Journal of Wind Energy 2012.

[Keck_2013a]

Keck et al., On Atmospheric Stability in the Dynamic Wake Meandering Model,Journal of wind energy January 2013.

[Keck_2013b]

Keck et al., A consistent turbulence formulation for the dynamic wake meandering model in the atmospheric boundary layer, PhD thesis, DTU Wind Energy PhD-0012 (EN), July 2013.

[Keck_2014]

Keck, et al, A pragmatic approach to wind farm simulations using the dynamic wake meandering model. 2014 Wind Energy, 18, 1671–1682. http://doi.org/10.1002/we

[Keck_2015]

Keck, R.-E. Validation of the standalone implementation of the dynamic wake meandering model for power production. (2015) Wind Energy, 18(9), 1579–1591. http://doi.org/10.1002/we.1777

[Larsen_2009]

Larsen, G. C. A simple stationary semi-analytical wake model, (2009) 1713(August), 1–21.

[Larsen_2011]

Larsen, T. J. et al, Validation of the Dynamic Wake Meander Model for Loads and Power Production in the Egmond aan Zee Wind Farm, 2011 Wind Energy. 1–19. http://doi.org/10.1002/we

[Larsen_2015]

Larsen, G. C., Machefaux, E. et al. Wake meandering under non-neutral atmospheric stability conditions - theory and facts. 2015 Journal of Physics: Conference Series, 625(1), 012036. http://doi.org/10.1088/1742-6596/625/1/012036

[Machefaux]

Machefaux, E. et al, Engineering models for merging wakes in wind farm optimization applications.

[Madsen_2009]

Madsen, H. A. et al, Calibration and Validation of the Dynamic Wake Meandering Model for Implementation in an Aeroelastic Code. Journal of Solar Energy Engineering, 132(4), 041014. http://doi.org/10.1115/1.4002555