Model Predictive wind turbine control for load alleviation and power leveling in Extreme Operation conditions
作者: Uwe Jassmann , Janos Zierath , Sebastian Dickler , Dirk Abel
关键词: Multivariable calculus 、 Control theory 、 Limit (music) 、 Power (physics) 、 Wind speed 、 Control system 、 Turbine 、 Engineering 、 Control theory 、 Wind power
摘要: Modern wind turbine control systems do not only have to guarantee safe and efficient operation, but also reduce mechanical loads a minimum by that allow for lighter weight designs. In order limit the amount of required loops corresponding tuning parameters, more attention is paid multivariable feedback which handle all aspects in one framework. This paper presents Model Predictive Controller (MPC) designed commercial 3MW turbine. The goal controller level output power while are limited. Although reduced model MPC presented this paper, minimal order, it sufficiently detailed application at hand. compared with currently installed. Simulation based tests fully validated multibody show can maintain during an Extreme Operation Gust (EOG) within 4%, 8% before, same time tower base moment approximately 15%.
sci-hub.se 参考文章(15)
E. Bossanyi, B. Savini, M. Iribas, M. Hau, B. Fischer, D. Schlipf, T. Engelen, M. Rossetti, C. E. Carcangiu, Advanced controller research for multi-MW wind turbines in the UPWIND project Wind Energy. ,vol. 15, pp. 119- 145 ,(2012) , 10.1002/WE.523
Jan Marian Maciejowski, Predictive Control With Constraints ,(2001)
David Schlipf, Dominik Johannes Schlipf, Martin Kühn, Nonlinear model predictive control of wind turbines using LIDAR Wind Energy. ,vol. 16, pp. 1107- 1129 ,(2013) , 10.1002/WE.1533
Martin Shan, Boris Fischer, Philipp Brosche, Regelungsentwurf für Windenergieanlagen At-automatisierungstechnik. ,vol. 61, pp. 305- 317 ,(2013) , 10.1524/AUTO.2013.0028
Ervin A. Bossanyi, Paul A. Fleming, Alan D. Wright, Validation of Individual Pitch Control by Field Tests on Two- and Three-Bladed Wind Turbines IEEE Transactions on Control Systems and Technology. ,vol. 21, pp. 1067- 1078 ,(2013) , 10.1109/TCST.2013.2258345
David Schlipf, Po Wen Cheng, Flatness-based Feedforward Control of Wind Turbines Using Lidar IFAC Proceedings Volumes. ,vol. 47, pp. 5820- 5825 ,(2014) , 10.3182/20140824-6-ZA-1003.00443
T Albin, P Drews, F Heßeler, AM Ivanescu, T Seidl, D Abel, None, A hybrid control approach for low temperature combustion engine control conference on decision and control. pp. 6846- 6851 ,(2011) , 10.1109/CDC.2011.6160976
U Jassmann, J Berroth, D Matzke, R Schelenz, M Reiter, G Jacobs, D Abel, Model predictive control of a wind turbine modelled in Simpack Journal of Physics: Conference Series. ,vol. 524, pp. 012047- ,(2014) , 10.1088/1742-6596/524/1/012047
J. Darrow, K. Johnson, A. Wright, Design of a tower and drive train damping controller for the three-bladed controls advanced research turbine operating in design-driving load cases Wind Energy. ,vol. 14, pp. 571- 601 ,(2011) , 10.1002/WE.443
Arne Koerber, Rudibert King, Combined Feedback–Feedforward Control of Wind Turbines Using State-Constrained Model Predictive Control IEEE Transactions on Control Systems and Technology. ,vol. 21, pp. 1117- 1128 ,(2013) , 10.1109/TCST.2013.2260749