基于自抗扰反馈控制的动态电压恢复器提高3型风力发电机组低压穿越能力

IF 2.9 4区 环境科学与生态学 Q3 ENERGY & FUELS
Clean Energy Pub Date : 2023-10-01 DOI:10.1093/ce/zkad050
El Mahfoud Boulaoutaq, Asma Aziz, Abdelmounime El Magri, Ahmed Abbou, Mohamed Ajaamoum, Azeddine Rachdy
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引用次数: 0

摘要

如果风力涡轮机(WTs)对电力生产有重大贡献,则不能允许因电网电压下降而断开,因为这会增加生产损失的风险并使电网不稳定。为了减轻这些情况的负面影响,wt必须能够在低压条件下运行,并注入无功电流以提供动态电压支持。本文研究了利用动态电压恢复器(DVR)增强3型小波变换的低压穿越(LVRT)能力。在电网电压下降时,DVR快速注入补偿电压以保持定子电压恒定。本文提出了一种自抗扰控制(ADRC)方案,用于控制风- dvr综合网络中的转子侧、电网侧和dvr侧变流器。使用MATLAB®/Simulink®在各种测试条件下对具有DVR拓扑的Type-3 WT的性能进行了评估。仿真结果还与在装有撬棍和直流斩波器的小波模拟器上进行的LVRT性能实验结果进行了比较。仿真结果表明,LVRT规范所定义的3型风电机组数量具有良好的暂态和稳态响应,并改善了平衡故障条件下的无功支持。最严重电压降为95%时,定子电流为1.25 pu,转子电流为1.40 pu,直流母线电压为1.09 UDC,符合LVRT规范的值。采用自抗扰技术控制的DVR显著提高了基于3型双馈感应发电机的小波在对称电压下降事件下的LVRT能力。尽管设置自抗扰控制器可能具有挑战性,但所提出的方法已被证明在减少各种内部和外部干扰方面非常有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-voltage ride-through capability improvement of Type-3 wind turbine through active disturbance rejection feedback control-based dynamic voltage restorer
Abstract Disconnections due to voltage drops in the grid cannot be permitted if wind turbines (WTs) contribute significantly to electricity production, as this increases the risk of production loss and destabilizes the grid. To mitigate the negative effects of these occurrences, WTs must be able to ride through the low-voltage conditions and inject reactive current to provide dynamic voltage support. This paper investigates the low-voltage ride-through (LVRT) capability enhancement of a Type-3 WT utilizing a dynamic voltage restorer (DVR). During the grid voltage drop, the DVR quickly injects a compensating voltage to keep the stator voltage constant. This paper proposes an active disturbance rejection control (ADRC) scheme to control the rotor-side, grid-side and DVR-side converters in a wind–DVR integrated network. The performance of the Type-3 WT with DVR topology is evaluated under various test conditions using MATLAB®/Simulink®. These simulation results are also compared with the experimental results for the LVRT capability performed on a WT emulator equipped with a crowbar and direct current (DC) chopper. The simulation results demonstrate a favourable transient and steady-state response of the Type-3 wind turbine quantities defined by the LVRT codes, as well as improved reactive power support under balanced fault conditions. Under the most severe voltage drop of 95%, the stator currents, rotor currents and DC bus voltage are 1.25 pu, 1.40 pu and 1.09 UDC, respectively, conforming to the values of the LVRT codes. DVR controlled by the ADRC technique significantly increases the LVRT capabilities of a Type-3 doubly-fed induction generator-based WT under symmetrical voltage dip events. Although setting up ADRC controllers might be challenging, the proposed method has been shown to be extremely effective in reducing all kinds of internal and external disturbances.
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来源期刊
Clean Energy
Clean Energy Environmental Science-Management, Monitoring, Policy and Law
CiteScore
4.00
自引率
13.00%
发文量
55
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