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基于内电压等效均方根的风电暂态稳定评估模型
Internal Voltage Equivalent RMS Models of Wind Generation for Transient Stability Assessment
| 作者 | Mingxuan Zhao · Tao Xue · Ilhan Kocar · Evangelos Farantatos · Deepak Ramasubramanian |
| 期刊 | IEEE Transactions on Power Delivery |
| 出版日期 | 2025年6月 |
| 技术分类 | 风电变流技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 风力发电机 RMS模型 暂态稳定性 大信号扰动 临界清除时间 |
语言:
中文摘要
均方根(RMS)仿真在含逆变型电源的大规模电力系统暂态稳定分析中具有较高效率。现有风电机组RMS模型对直流母线动态及内环电压前馈环节进行了简化,影响了评估精度。本文提出一种新型基于内电压矢量的III型风电机组RMS模型,并改进了IV型机组的现有模型,以准确模拟大扰动下的同步动态特性。两类模型均通过等效电路融合变流器与控制动态。所提III型模型支持转子变量直接初始化,IV型模型则引入不完全电压前馈与直流动态以提升精度。与详细电磁暂态模型对比,所提RMS模型在临界清除时间评估中表现出良好性能。
English Abstract
Root-mean-square (RMS) simulations are time-efficient in studying transient stability of large-scale power systems with inverter-based resources (IBRs). However, existing RMS models of wind turbine generators (WTGs) have simplified DC bus dynamics and inner-loop voltage feedforward terms, resulting in reduced assessment accuracy. This paper develops a new internal voltage vector-based RMS model for Type-III WTGs and improves the existing internal voltage vector-based RMS model of Type-IV WTGs to accurately emulate synchronization dynamics under large-signal disturbances. Both WTG models integrate converter and control dynamics through equivalent circuits. For Type-III WTGs, the proposed model enables direct initialization of rotor variables, while for Type-IV WTGs, imperfect voltage feedforward and DC dynamics are incorporated to enhance accuracy. The proposed RMS models show desired performance in critical clearing time (CCT) assessment when compared to detailed EMT models.
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SunView 深度解读
该研究提出的内电压等效RMS建模方法对阳光电源的储能与风电产品线具有重要参考价值。特别是其中的直流母线动态与电压前馈控制优化思路,可直接应用于ST系列储能变流器和大型风电变流器的暂态稳定性提升。模型支持转子变量直接初始化的特点,有助于PowerTitan储能系统在电网故障期间的快速响应控制。该方法通过等效电路融合变流器与控制动态的思路,也可用于优化阳光电源GFM/GFL控制器的暂态性能,提高产品在大扰动下的稳定性。这对提升公司储能产品在电网支撑方面的竞争力具有积极意义。