| Chair: |
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| Ghamgeen Izat Rashed (Bu A) |
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| Wuhan University, China |
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| Keywords: |
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- Microgrid (微电网)
- Active Support (主动支撑)
- Flexible Grid-Connection (柔性并网)
- Active Distribution Network (主动配电网)
- Distribution Network Support (配电网支撑)
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| Topics (Include but are not limited to): |
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- Advanced control strategies for microgrids to provide voltage/frequency support, fault ride-through, and ancillary services to active distribution networks
(微电网为主动配电网提供电压 / 频率支撑、故障穿越与辅助服务的先进控制策略)
- Flexible grid-connection technologies for microgrids, including soft connection, seamless switching between grid-connected and islanded modes, and multi-microgrid interconnection
(微电网柔性并网技术,包括软并网、并网 / 孤岛无缝切换、多微网互联技术)
- Coordinated operation and optimization of microgrids with high-penetration renewable energy for enhancing distribution network resilience
(高比例新能源接入下微电网与主动配电网的协同运行优化及配电网韧性提升)
- Modeling, simulation, and real-time testing of microgrid active support capabilities in distribution networks
(微电网主动支撑能力的建模、仿真与实时测试验证技术)
- Practical case studies, field applications, and demonstration projects of microgrids supporting active distribution networks
(微电网支撑主动配电网的工程应用案例、示范项目与实践经验)
- Standardization, grid code compliance, and economic assessment of microgrid active support technologies
(微电网主动支撑技术的标准规范、并网合规性与经济性评估)
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| Summary: |
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- This special session focuses on flexible grid-connection and active support technologies of microgrids for active distribution networks, a critical topic for enabling high renewable energy penetration and enhancing grid resilience. As microgrids become key building blocks of modern power systems, their ability to provide voltage/frequency support, fault ride-through, and ancillary services is essential for stabilizing active distribution networks with high distributed generation integration.
The session aims to share cutting-edge research findings, discuss practical challenges in field applications, and identify future directions for standardized technologies and collaborative solutions to unlock the full potential of microgrids as active grid-supporting assets.
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- 本特邀专场聚焦面向主动配电网支撑的微电网柔性并网与主动支撑技术,是支撑高比例新能源消纳、提升配电网韧性的关键研究方向。随着微电网成为现代电力系统的重要组成单元,其为主动配电网提供电压 / 频率支撑、故障穿越、辅助服务的能力,对高分布式电源接入场景下的配电网稳定运行至关重要。
本专场旨在分享前沿研究成果,探讨工程应用中的实际挑战,并明确标准化技术与协同解决方案的未来方向,推动微电网真正成为主动支撑配电网运行的关键资产。
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