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并网逆变器同步稳定性分析与控制策略研究综述OA

A Review of Synchronization Stability Analysis and Control Strategies for Grid-Connected Inverters

中文摘要英文摘要

[目的]随着电力电子装备在新型电力系统中渗透率的日益提升,系统逐渐由同步发电机主导的"物理同步"特性,演变为并网逆变器主导的"控制同步"特性.受并网逆变器强非线性、弱过流能力以及多机耦合特性的影响,系统同步稳定性问题呈现出由局部到整体的多层次特征.[方法]文章从单机无穷大系统和混联系统两个层面展开综述.在单机无穷大系统层面,定义虚拟功角,描述跟网型(grid-following,GFL)逆变器、虚拟同步发电机类和虚拟振荡器类构网型(grid-forming,GFM)逆变器与电网的同步关系,基于虚拟功角曲线分析影响各类逆变器同步稳定性的关键因素,归纳典型致稳控制策略.在混联系统层面,考虑GFL与GFM逆变器控制环节之间的交互耦合关系,给出孤岛和并网模式下混联系统等效功角的动态模型,梳理对应场景下多机交互引发的同步失稳机理和致稳控制策略.[结论]结合对现有同步稳定性研究成果的分析,从多时间尺度建模、多场景稳定性评估与协同致稳控制三个方面,对并网逆变器同步稳定性的未来研究方向进行展望.

[Objective]With the increasing penetration of power electronic devices in the new power systems,the system is gradually evolving from a"physical synchronization"paradigm dominated by synchronous generators to a"control-based synchronization"paradigm dominated by grid-connected inverters.Due to the strong nonlinearity,limited overcurrent capability,and multi-inverter coupling characteristics of grid-connected inverters,synchronization stability issues exhibit multi-level features,extending from local dynamics to system-wide interactions.[Methods]To address this,this paper presents a comprehensive review from two perspectives,single-machine infinite-bus systems and hybrid systems.For the single-machine infinite-bus systems,virtual power angle dynamic models describing the synchronization behavior of grid-following(GFL)inverters,virtual synchronous generator-based,and virtual oscillator-based grid-forming(GFM)inverters with the grid are introduced.Based on the virtual power angle curves,the key factors affecting the synchronization stability of different inverter types are analyzed,and representative stabilization control strategies are summarized.For hybrid systems,considering the interactive coupling among control loops of GFL and GFM inverters,equivalent power angle dynamic models under both islanded and grid-connected modes are established,and the mechanisms of synchronization instability caused by multi-machine interactions,together with corresponding stabilization control strategies,are systematically reviewed.[Conclusions]Based on an analysis of existing research progress,future research directions on the synchronization stability of grid-connected inverters are discussed from the perspectives of multi-time-scale modeling,multi-scenario stability assessment,and coordinated stabilization control.

李立;宋蕙慧;林欣魄;闫志彬;田星;吴阳

哈尔滨工业大学(威海)新能源学院,山东省 威海市 264200哈尔滨工业大学(威海)新能源学院,山东省 威海市 264200哈尔滨工业大学(威海)信息科学与工程学院,山东省 威海市 264200国网宁夏电力有限公司,银川市 750001国网宁夏电力有限公司经济技术研究院,银川市 750001南洋理工大学电气与电子工程学院,新加坡 639798

信息技术与安全科学

并网逆变器跟网型控制构网型控制混联系统同步稳定性

grid-connected invertersgrid-following controlgrid-forming controlhybrid systemsynchronization stability

《电力建设》 2026 (6)

17-34,18

国家自然科学基金项目(52477085)宁夏自然科学基金项目(2024AAC02084)国家电网有限公司科技项目(1400-202435281A-1-1-ZN)This work is supported by National Natural Science Foundation of China(No.52477085),Natural Science Foundation of Ningxia Province(No.2024AAC02084),and Science and Technology Project of State Grid Corporation of China(No.1400-202435281A-1-1-ZN).

10.12204/j.issn.1000-7229.2026.06.002

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