国网综合能源服务集团有限公司,北京 100053
李振(1986—),男,博士,高级工程师,研究方向为综合能源系统优化、储能系统调试运行技术及在电源调频中的应用(通信作者) (E-mail:lizhen@sgecs.com.cn)。
收稿:2025-12-03,
修回:2026-01-23,
纸质出版:2026-06-16
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李振, 曲玉珊, 周喜超, 等. 构网型储能PCS变流器控制策略及发展趋势综述[J]. 高压电器, 2026,62(6):12-20.
LI Zhen, QU Yushan, ZHOU Xichao, et al. Review of Control Strategies and Development Trends for Grid-forming Energy Storage PCS Converters[J]. High Voltage Apparatus, 2026, 62(6): 12-20.
李振, 曲玉珊, 周喜超, 等. 构网型储能PCS变流器控制策略及发展趋势综述[J]. 高压电器, 2026,62(6):12-20. DOI: 10.13296/j.1001-1609.hva.2026.06.002.
LI Zhen, QU Yushan, ZHOU Xichao, et al. Review of Control Strategies and Development Trends for Grid-forming Energy Storage PCS Converters[J]. High Voltage Apparatus, 2026, 62(6): 12-20. DOI: 10.13296/j.1001-1609.hva.2026.06.002.
作为未来电力系统的重要供能来源,以风光为主的新能源发电给电力系统带来了波动性和间歇性等诸多困扰,储能装置具有平抑新能源出力波动,维持电网稳定的功能,其中,储能功率转换系统(PCS)即储能变流器,作为储能设备的并网接口,其控制特性显著影响储能单元的并网特性。传统跟网型控制变流器存在功率调节能力低、缺乏电网支撑能力等问题,研究中陆续提出了构网型(grid-forming,GFM)变流器的控制模式,储能单元结合构网型控制策略可有效改善电网侧的动态性能和稳定性。文中阐述了构网型储能变流器的结构和特点,以及常用的VF控制、基于PSL的GFM控制、VOC和匹配控制的构网型控制模式,并就存在的变流器过流保护和同步稳定性进行了讨论,分别介绍了面对小干扰和大干扰时变流器的同步稳定方式。最后介绍了构网型控制在储能上的应用以及未来发展方向。
As a critical energy source for future power systems
renewable energy generation
primarily based on wind and solar power
has brought about numerous challenges such as volatility and intermittency to the power system. Energy storage devices play a key role in smoothing out fluctuations in renewable energy output and maintaining grid stability
in which
the power conversion system (PCS)
known as the energy storage converter
serves as the grid interface for energy storage equipment
and its control characteristics significantly influence the grid-connected performance of the energy storage unit. The traditional grid-following control converter has such issues as low power regulation and a lack of grid support capacity
the control mode of grid-forming (GFM) converter is successively proposed in the study. The energy storage unit in combination with grid-forming control strategy can effectively improve dynamic performance and stability of the grid side. In this paper the structure and characteristics of grid-forming converter and the grid-forming control mode of the commonly used VF control
GFM control based on PSL
VOC and matching control are described. The overcurrent protection and synchronization stability of the existing converter are also discussed. The synchronization stability methods of converter under small and large distrubances are introduced respectively. Finally
the application and future development trends of grid-forming control in energy storage are introduced.
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