D. Gallo, C. Landi, R. Langella, A. Testa, "On the Use of the Flickermeter to Limit Low Frequency Interharmonic Voltages", accepted for publication on IEEE Trans. on Power Delivery.
R. Langella, A. Testa, "Amplitude and Phase Modulation Effects of Waveform Distortion in Power Systems", Proc. of 7th International Workshop on Power Definitions and Measurements under Non-Sinusoidal Conditions, Cagliari, July 10-12, 2006.
IEC 61000-4-15 - Flickermeter, functional and design specifications.
L.L.Freris, "The control of wind turbines", Athens Power Tech, 1993.
P. Rosas, P. Sørensen, and H. Bindner, "Fast wind modeling for wind turbines," Proc. 2000 Europe Wind Energy Assoc. Int. Conf.
R. Gagnon, B. Saulnier, G. Sybille, P. Giroux; "Modeling of a Generic High-Penetration No-Storage Wind-Diesel System Using Matlab/Power System Blockset" 2002 Global Windpower Conference, April 2002, Paris, France.
A preliminary study for the development of a frequency domain methodology aimed to assess the light flicker "penetration" in the electrical networks due to the interharmonic distortion produced by wind turbines is conducted. Starting from the numerical models of two wind turbine schemes, the former fixed and the latter variable speed, simplified analytical formulas already proposed for the Pst evaluation based on voltage spectral analysis are tested.