Geodesic
Mathematical model of transients of blade pitch control wind power plant
Matematičeskoe modelirovanie, Tome 25 (2013) no. 12, pp. 33-43.

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The system of the differential equations describe transients of wind power plant is composed. The vector recurrence relation describe dynamics of wind power plant is obtained. The mathematical model permitting to compare various modes of operations of wind power plant at casual change of the characteristics of air stream is developed.
Keywords: mathematical model, wind power plant, wind turbine, transient, algorithm of control. 
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E. V. Kaplya. Mathematical model of transients of blade pitch control wind power plant. Matematičeskoe modelirovanie, Tome 25 (2013) no. 12, pp. 33-43. http://geodesic.mathdoc.fr/item/MM_2013_25_12_a2/

[1] Zhokhova A. V., Chetverushkin B. N., “Modelirovanie nestatsionarnykh gazodinamicheskikh techenii”, Matematicheskoe modelirovanie, 14:4 (2002), 35–44 | Zbl

[2] Chetverushkin B. N., Kineticheski-soglasovannye skhemy v gazovoi dinamike, Izd-vo MGU, M., 1999, 232 pp.

[3] Johnson K. E., Adaptive torque control of variable speed wind turbines, TP-500-36265, National Renewable Energy Laboratory, August 2004, 107 pp.

[4] Wright A. D., Fingersh L. J., Advanced control design for wind turbines, TP-500-42437, National Renewable Energy Laboratory, March 2008, 148 pp.

[5] Hansen M. O. L., Aerodynamics of wind turbines, 2nd edition, Earthscan, 2008, 192 pp.

[6] Van Engelen T. G., Van der Hooft E. L., Schaak P., Development of wind turbine control algorithms for industrial use, Technical report ECN-RX-01-060, Energy research centre of the Netherlands (ECN), September 2001, 6 pp.

[7] Bianchi F. D., Battista H. D., Mantz R. J., Wind turbine control systems: principles, modeling and gain scheduling design, Springer-Verlag London limited, 2007, 206 pp. | Zbl

[8] Heier S., Waddington R., Grid integration of wind energy conversion systems, 2nd edition, Wiley, 2006, 446 pp.

[9] Skubov D. Yu., Khodzhaev K. Sh., Nelineinaya elektromekhanika, Fizmatlit, M., 2003, 360 pp.