1 Department of Mathematics, Science and Technology, Aarhus University2 Department of Mathematics, Science and Technology, Aarhus University
The performance of a wind turbine in terms of power production (the power curve) is important to the wind energy industry. The current IEC-61400-12-1 standard for power curve evaluation recognizes only the mean wind speed at hub height and the air density as relevant to the power production. However, numerous studies have shown that the power production depends on several variables, in particular turbulence intensity. This paper presents a model and a method that are computationally tractable and able to account for some of the influence of turbulence intensity on the power production. The model and method are parsimonious in the sense that only a single function (the zero-turbulence power curve) and a single auxiliary parameter (the equivalent turbulence factor) are needed to predict the mean power at any desired turbulence intensity. The method requires only ten minute statistics but can be applied to data of higher temporal resolution as well.
Wind Energy, 2014, Vol 17, Issue 2, p. 173-195
effektkurver; turbulens; vindenergi; power curves; turbulence; Wind power