Integrated control strategy for DFIG wind turbine power regulation

机译：DFIG风力发电机功率调节的集成控制策略

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The conventional control method used for wind turbine, PI control, is still the most common method adopted by industry. This requires several cascaded control loops decoupled and tuned carefully in order to make the control system stable and independent to each other. This may restrict the bandwidth of each controller. Using an advanced control strategy as an alternative has been studied for years. In this field, sliding mode control attracts high attention due to its advantages of fast convergence and robustness to the system's uncertainties. This paper integrates a sliding mode control method together with PI control on a doubly-fed induction generator wind turbine system, which has been developed in PSCAD/EMTDC. Equipped with a pitch controller, this model can achieve both targets of power maximization at low speed and power limitation at higher speeds. The proposed strategy improves the system response with little effort of increasing the structure complexity.

机译：用于风力涡轮机的常规控制方法，即PI控制，仍然是工业界最常用的方法。这需要仔细解耦和调整几个级联的控制回路，以使控制系统稳定且彼此独立。这可能会限制每个控制器的带宽。使用高级控制策略作为替代方案已经研究了多年。在该领域，滑模控制由于其快速收敛性和对系统不确定性的鲁棒性的优势而引起了高度关注。本文在PSCAD / EMTDC中开发的双馈感应发电机风力涡轮机系统上将滑模控制方法与PI控制集成在一起。配备变桨控制器，该模型可以同时实现低速时功率最大化和高速时功率限制的目标。所提出的策略在不增加结构复杂度的情况下改善了系统响应。

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《IET Renewable Power Generation Conference》|2013年|1-4|共4页
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Lei T.; Zhang H.; Barnes M.; Marjanovic O.;
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DFIG; Power maximization; Sliding Mode Control; Wind Turbine Modelling;

机译：DFIG;功率最大化;滑模控制;风轮机建模;

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1. A Comparative Study for Rotor Side Converter Controller of a DFIG-Based Wind Turbine, Using Direct Power Control, Carrier-Based PWM Voltage Control and Hysteresis Current Control Strategies [J] . Mohsen GHORBANI, Babak MOZAFFARI, Soodabeh SOLEYMANI International Journal of Natural and Engineering SciencesbElectronic resource . 2014,第1期

机译：基于直接功率控制，基于载波的PWM电压控制和磁滞电流控制策略的基于DFIG的风力发电机转子侧变流控制器的比较研究
2. Power Control Strategies in Wind Turbines using DFIG-Generator: Field Oriented Control FOC and Sliding Mode Control [J] . WSEAS Transactions on Systems . 2019,第期

机译：使用DFIG发生器的风力涡轮机的电源控制策略：现场定向控制FOC和滑模控制
3. Control Strategy for DFIG Wind Turbine in Variable Speed Wind Power Generation [J] . Tamilselvan.R, Suganya.P, Rengarajan. N International Journal of Innovative Research in Science, Engineering and Technology . 2014,第1期

机译：变速风力发电中双馈风力发电机的控制策略
4. INTEGRATED CONTROL STRATEGY FOR DFIG WIND TURBINE POWER REGULATION [C] . T. Lei, H. Zhang, M. Barnes, IET Renewable Power Generation Conference . 2014

机译：DFIG风力涡轮机功率调节的集成控制策略
5. Rotor Current Control Design for DFIG-Based Wind Turbine Using PI, FLC and Fuzzy PI Controllers [D] . Al-Zabin Al-Khaldi, Omar. 2019

机译：使用PI，FLC和模糊PI控制器的基于DFIG的风力涡轮机的转子电流控制设计
6. LVRT capability enhancement of DFIG based wind turbine with coordination control of dynamic voltage restorer and inductive fault current limiter [O] . Dongyin Zhang, Hanping Xu, Li Qiao, 2012

机译：动态电压恢复器和感应故障限流器的协调控制，增强了基于双馈风力发电机的LVRT功能
7. Comparison study between NPWM and NSVPWM strategy in FSMC control of stator reactive and active powers control of a DFIG-based wind turbine system [O] . Habib Benbouhenni, Zinelaabidine Boudjema, Abdelkader Belaidi 2020

机译：基于DFIG的风力涡轮机系统的定子反应和主动功率控制中NPWM和NSVPWM策略的比较研究
8. Considerations for an Integrated Wind Turbine Controls Capability at the National Wind Technology Center: An Aileron Control Case Study for Power Regulation and Load Mitigation [R] . Stuart, J. G., Wright, A. D., Butterfield, C. P. 1996

机译：国家风能技术中心综合风力发电机组控制能力的考虑因素：用于功率调节和负载减轻的副翼控制案例研究

Integrated control strategy for DFIG wind turbine power regulation

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