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在高比例逆变型电源配电系统恢复中施加细粒度合成频率响应速率约束
Imposing Fine-Grained Synthetic Frequency Response Rate Constraints for IBR-Rich Distribution System Restoration
| 作者 | Chongyu Wang · Yunjian Xu · Kaiyuan Pang · Mohammad Shahidehpour · Qin Wang · Guoteng Wang |
| 期刊 | IEEE Transactions on Power Systems |
| 出版日期 | 2025年1月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 微电网 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 分布式系统恢复 综合频率响应率 逆变器资源 约束施加方法 微电网频率安全 |
语言:
中文摘要
在同步发电机主导的配电系统恢复过程中,通常施加频率响应速率(FRR)约束以防止负荷投入引起的过大频率跌落。然而,随着各类逆变型电源(IBR)渗透率不断提高,FRR演变为合成FRR(SFRR),其约束难以融入恢复优化模型。本文首次提出一种可无损引入细粒度SFRR约束的建模方法,适用于高比例IBR的配电系统恢复优化。仿真结果表明,该方法通过简洁的线性化约束,精确保障各孤岛微电网的合成频率安全响应,无需降阶频率传递函数或分段近似频率谷值。
English Abstract
Frequency response rate (FRR) constraints are imposed during synchronous generator-dominated distribution system restoration (DSR) to prevent unallowable frequency dip caused by load pickup. However, with the ever-increasing penetration of diversified inverter-based resources (IBRs), the FRR is evolving as the synthetic FRR (SFRR), rendering their constraints more intractable to be incorporated in DSR. This letter proposes a novel method for losslessly imposed fine-grained SFRR constraints on IBR-rich DSR optimization models, for the first time. Simulation results verify that it can accurately ensure the secure synthetic frequency response in each formed microgrid through concise linearized constraints, without order reduction of frequency transfer functions or piecewise approximations of frequency nadir.
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SunView 深度解读
该细粒度合成频率响应速率(SFRR)约束建模技术对阳光电源ST系列储能变流器和PowerTitan大型储能系统具有重要应用价值。在高比例IBR配电网黑启动场景中,该方法可直接集成到阳光电源储能系统的构网型GFM控制策略中,通过线性化约束精确保障孤岛微电网频率安全,避免负荷投入时的频率跌落。相比传统降阶频率传递函数方法,该技术可优化ST储能系统的恢复优化算法,提升iSolarCloud云平台的智能调度能力。对于光储一体化项目,该SFRR约束可协同SG光伏逆变器与储能系统,实现配电网快速恢复,增强阳光电源在微电网EMS能量管理系统的技术竞争力。