TY - GEN
T1 - Collective control of a cluster of stall regulated wind turbines
AU - Hur, S.
AU - Leithead, W. E.
PY - 2012
Y1 - 2012
N2 - Collective control of a small cluster of wind turbines using a single controller is investigated to enable simplification of the turbines. For simplicity, reduced cost, and possibly improved reliability, each turbine is constant speed stall regulated. In return, each turbine experiences reduced energy capture and increased loads, and these disadvantages become greater as the number of wind turbines in the cluster increases. In this paper, a cluster consisting of 5 turbines is assessed in comparison to the situation with each turbine having its own converter and controller. A new collective control strategy that acts in response to the poorest control is proposed as opposed to acting in response to the average control. The control strategy is applied to a cluster model, which is also developed in this paper by modifying a Matlab/SIMULINK® simulation model of the SUPERGEN 5MW exemplar wind turbine, and simulation results demonstrate that the control strategy could be more cost effective than each turbine having its own converter and controller, especially with optimal design of rotors.
AB - Collective control of a small cluster of wind turbines using a single controller is investigated to enable simplification of the turbines. For simplicity, reduced cost, and possibly improved reliability, each turbine is constant speed stall regulated. In return, each turbine experiences reduced energy capture and increased loads, and these disadvantages become greater as the number of wind turbines in the cluster increases. In this paper, a cluster consisting of 5 turbines is assessed in comparison to the situation with each turbine having its own converter and controller. A new collective control strategy that acts in response to the poorest control is proposed as opposed to acting in response to the average control. The control strategy is applied to a cluster model, which is also developed in this paper by modifying a Matlab/SIMULINK® simulation model of the SUPERGEN 5MW exemplar wind turbine, and simulation results demonstrate that the control strategy could be more cost effective than each turbine having its own converter and controller, especially with optimal design of rotors.
KW - Collective control
KW - Model predictive control
KW - Wind turbine control
KW - Wind turbine modelling
UR - https://www.scopus.com/pages/publications/84877781949
U2 - 10.1049/cp.2012.1779
DO - 10.1049/cp.2012.1779
M3 - Conference contribution
AN - SCOPUS:84877781949
SN - 9781849196734
T3 - IET Conference Publications
BT - International Conference on Sustainable Power Generation and Supply, SUPERGEN 2012
T2 - International Conference on Sustainable Power Generation and Supply, SUPERGEN 2012
Y2 - 8 September 2012 through 9 September 2012
ER -