Title :
Regime-based supervisory control to reduce power fluctuations from offshore wind power plants
Author :
Barahona, Braulio ; Cutululis, Nicolaos A. ; Trombe, Pierre-Julien ; Pinson, Pierre
Author_Institution :
DTU Wind Energy, Tech. Univ. of Denmark, Roskilde, Denmark
Abstract :
Wind power fluctuations, especially offshore, can pose challenges in the secure and stable operation of the power system. In modern large offshore wind farms, there are supervisory controls designed to reduce the power fluctuations. Their operation is limited due to the fact that they imply loss of production, hence revenue for the wind farm operator. On the other hand, progresses in short term forecasting, together with the increasing use of probabilistic forecasting can help in achieving efficient power fluctuations reduction with minimum lost production. Here we present supervisory control concepts that consider different wind power regimes to derive control setpoints by using a Markov-Switching AutoRegressive model. We evaluate the performance versus measured data in terms of power ramp characteristics and energy efficiency.
Keywords :
Markov processes; autoregressive processes; offshore installations; power generation control; power system stability; probability; wind power plants; MSAR; Markov-switching autoregressive model; energy efficiency; offshore wind farms; offshore wind power plants; power ramp characteristics; probabilistic forecasting; regime-based supervisory control; short term forecasting; wind power fluctuation reduction; Energy efficiency; Fluctuations; Probabilistic logic; Supervisory control; Wind farms; Wind forecasting; Wind power generation; Markov-switching autoregressive model (MSAR); regime-based control; short-term wind power forecast; wind power integration; wind power plant control; wind power ramps;
Conference_Titel :
PowerTech (POWERTECH), 2013 IEEE Grenoble
Conference_Location :
Grenoble
DOI :
10.1109/PTC.2013.6652369
