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风电变流技术
★ 5.0
考虑非线性效应的双馈感应风电机组主导电力系统跨时间尺度动态交互分析
Cross-Timescale Dynamics Interaction Analysis of DFIG-WTs-Dominated Power Systems Considering Nonlinear Effects
| 作者 | Jiabing Hu · Zebin Liu · Yingbiao Li · Jianbo Guo |
| 期刊 | IEEE Transactions on Power Systems |
| 出版日期 | 2025年8月 |
| 技术分类 | 风电变流技术 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 双馈感应发电机 多时间尺度 跨时间尺度耦合 正规形方法 动态特性分析 |
语言:
中文摘要
随着以双馈感应发电机(DFIG)型风力发电机组(WTs)为代表的风电渗透率不断提高,电力系统动态呈现出多时间尺度特征。此外,系统的强非线性特性导致动态过程中多时间尺度动态之间出现跨时间尺度耦合现象。然而,以往的研究通常采用线性方法评估平衡点邻域的稳定性,而忽略了非线性效应引起的跨时间尺度特征。本文针对这一不足,在以双馈感应发电机型风力发电机组为主导的电力系统中采用基于二阶泰勒展开的正规形方法(NFM)。随后,揭示了跨时间尺度耦合模式和现象。此外,分析了耦合动态的频率特性和阻尼特性。最后,在实时实验室(RT-LAB)中发现并验证了跨时间尺度现象。
English Abstract
With the increasing penetration of wind power represented by Doubly Fed Induction Generator (DFIG) based wind turbines (WTs), the power system dynamics exhibit characteristics of multi-timescale. Moreover, the strong nonlinear characteristics of the system lead to cross-timescale coupled phenomena between multi-timescale dynamics in dynamic processes. However, previous studies typically employ linear methods to evaluate the stability of the equilibrium point neighborhood while ignoring the characteristics of cross-timescale caused by nonlinear effects. This paper addresses this gap by employing the normal form method (NFM) based on second-order Taylor expansions in the DFIG-WTs-dominated power systems. Subsequently, cross-timescale coupled modes and phenomena have been revealed. Furthermore, the frequency characteristics and damping characteristics of the coupled dynamics are analyzed. Finally, both cross-timescale phenomena are discovered and validated in real-time LAB(RT-LAB).
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SunView 深度解读
该研究对阳光电源的风电变流器和储能变流器产品线具有重要参考价值。研究揭示的跨时间尺度动态交互机制,可直接应用于ST系列储能变流器和风电变流器的控制系统优化,特别是在高渗透率新能源场景下的稳定性控制。通过将非线性分析方法集成到控制算法中,可提升产品在弱电网条件下的适应性。这对完善阳光电源的构网型(GFM)控制策略、提高储能变流器的电网支撑能力具有重要指导意义。建议在PowerTitan等大型储能系统的控制器设计中充分考虑该研究成果,优化系统在复杂电网环境下的动态响应特性。