Direct power control of a wind turbine based on doubly fed induction generator

被引：0

作者：

Yaichi I. ^{[1
]}

Semmah A. ^{[1
]}

Wira P. ^{[2
]}

机构：

[1] Electrical Engineering Dept., University of Djillali Liabes, Sidi Bel Abbes

[2] IRIMAS Laboratory, University of Haute Alsace, Mulhouse

来源：

European Journal of Electrical Engineering | 2019年 / 21卷 / 05期

关键词：

Direct Power Control (DPC); Doubly Fed Induction Generator (DFIG); Field Oriented Control (FOC); Pulse Width Modulation (PWM);

D O I：

10.18280/ejee.210508

中图分类号：

学科分类号：

摘要：

This paper proposes a direct power control (DPC) strategy for the doubly-fed induction generator (DFIG) operating under variable wind speeds. Under this strategy, the active and reactive powers of the DFIG are directly controlled by the AC/DC converter, whose switching states were selected from a switch table. Besides, a two-level hysteresis corrector was selected to control the active and reactive powers, ensuring the dynamic performance of the DFIG. The effectiveness of the proposed DPC strategy was compared through MATLAB simulation with the field oriented control (FOC), a classical proportional-integral (PI) control strategy for wind turbines. The results show that the DPC strategy adjusted the instantaneous active and reactive powers in the grid perfectly with respect to their references, and realized the absorption of sinusoidal currents with a unity power factor. The proposed DPC strategy has a great application potential in wind power generation. © 2019 International Information and Engineering Technology Association. All rights reserved.

引用

页码：457 / 464

页数：7

共 23 条

[1]

Noguchi T., Tomiki H., Kondo S., Takahashi I., Direct power control of PWM converter without power source voltage sensors, IAS’96. Conference Record of the 1996 IEEE Industry Applications Conference Thirty-First IAS Annual Meeting, 2, pp. 941-946, (1996)

[2]

Cadirci I., Ermis M., Double-output induction generator operating at subsynchronous and supersynchronous speeds: Steady-state performance optimisation and wind-energy recovery, IEE Proceedings B (Electric Power Applications), 139, 5, pp. 429-442, (1992)

[3]

Shehata E.G., Sliding mode direct power control of RSC for DFIGs driven by variable speed wind turbines, Alexandria Engineering Journal, 54, 4, pp. 1067-1075, (2015)

[4]

Bossanyi E., Burton T., Sharpe D., Jenkins N., Wind Energy Handbook, (2000)

[5]

Kahla S., Soufi Y., Sedraoui M., Bechouat M., On-Off control based particle swarm optimization for maximum power point tracking of wind turbine equipped by DFIG connected to the grid with energy storage, International Journal of Hydrogen Energy, 40, 39, pp. 13749-13758, (2015)

[6]

Amrane F., Chaiba A., A hybrid intelligent control based on DPC for grid-connected DFIG with a fixed switching frequency using MPPT strategy, 4th International Conference on Electrical Engineering (ICEE), pp. 1-4, (2015)

[7]

Seker M., Zergeroglu E., Tatlicioglu E., Nonlinear control of variable-speed wind turbines with permanent magnet synchronous generators: A robust backstepping approach, International Journal of Systems Science, 47, 2, pp. 420-432, (2016)

[8]

[9]

Aboulem S., Boufounas E.M., Boumhidi I., Optimal tracking and robust intelligent based PI power controller of the wind turbine systems, Intelligent Systems and Computer Vision, (2017)

[10]

Barambones O., Robust wind speed estimation and control of variable speed wind turbines, Asian Journal of Control, 21, 2, pp. 856-867, (2019)

← 1 2 3 →