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中央控制器协同的多微电网平滑切换与并联运行研究OA

Multi-microgrid Bumpless Transition and Interconnect Operation Based on Central Controller Collaboration

中文摘要英文摘要

为了改善微电网并离网切换过程中产生的电压冲击问题及离网后多个微电网难以稳定并联运行支撑横向功率互济的问题,提出一种基于微电网中央控制器(microgrid central controller,MGCC)与单环构网型逆变器的新能源自组网控制理论及架构.首先,构建离网切换过程中的电压数学理论模型,分析离网与并联运行过程中的电压相量与同期合闸的联系,结合构网型逆变器的物理本质与特征说明所提架构的原理与合理性;然后,利用嵌入式芯片构建 MGCC,并进行硬件在环仿真(hardware-in-loop,HIL).实验结果表明,所提 MGCC 与单环构网的控制架构在并离网切换、柔性并网和多微网并列运行具有较好性能,相对现有架构在电压控制与并联稳定上具有一定优势.

This paper proposes a novel control theory and architecture based on a microgrid central controller(MGCC)and single-loop grid-forming inverters to address two key challenges:the voltage surge induced during grid-connected to islanded transitions,and the difficulty in achieving stable parallel operation among multiple islanded microgrids for lateral power support.Firstly,a mathematical model of voltage dynamics during the transition process is established.The relationship between voltage phasors and synchronized switching operations during the transition and parallel operation is analyzed.Based on the inherent physical characteristics and operational principles of grid-forming inverters,the proposed architecture is explained,and its rationality is justified.The MGCC is implemented using an embedded chip,and hardware-in-the-loop(HIL)simulations are conducted on a real-time digital simulation(RTDS)platform.Experimental results confirm that the proposed architecture can effectively manage grid-to-island transitions and flexible grid connection,while it also exhibits advantages in voltage stabilization and parallel operation stability over existing architectures.

谌立坤;尚磊;郑润生;董旭柱;王波

武汉大学电气与自动化学院交直流智能配电网湖北省工程中心,湖北省 武汉市 430072武汉大学电气与自动化学院交直流智能配电网湖北省工程中心,湖北省 武汉市 430072武汉大学电气与自动化学院交直流智能配电网湖北省工程中心,湖北省 武汉市 430072武汉大学电气与自动化学院交直流智能配电网湖北省工程中心,湖北省 武汉市 430072武汉大学电气与自动化学院交直流智能配电网湖北省工程中心,湖北省 武汉市 430072

信息技术与安全科学

微电网微电网中央控制器并离网切换构网型并联运行

microgridmicrogrid central controllergrid-tied and islanded transitiongrid formingparallel operation

《中国电机工程学报》 2026 (11)

4389-4402,中插3,15

智能电网国家科技重大专项项目(2024ZD0800600).Key R&D Project on Smart Grid Major Special Project(2024ZD0800600).

10.13334/j.0258-8013.pcsee.250872

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