| Chair: |
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| Yongjun Zhang |
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| South China University of Technology, China |
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| Keywords: |
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- Flexible Power Distribution (柔性配电)
- Grid-forming Energy Storage (构网储能)
- Power Electronics (电力电子)
- Distribution-micro Collaboration (配微协同)
- AI (人工智能)
- Power Quality (电能质量)
- Distributed Smart Grid (分布式智能电网)
- Virtual Power Plant (虚拟电厂)
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| Topics: |
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- Key technologies for topology optimization, networking, and flexible interconnection equipment in flexible distribution networks
(柔性配电网拓扑优化、组网与柔性互联装备关键技术)
- Distribution-micro collaborative operation and integrated method of source network load storage
(配微网协同运行与源网荷储一体化方法)
- Security, stability and resilience improvement technology for flexible distribution network under high proportion of new energy access
(高比例新能源接入下柔性配电网安全稳定与韧性提升技术)
- Electricity market mechanism and virtual power plant technology under the distribution-micro coordination
(配微协同下的电力市场机制与虚拟电厂技术)
- Collaborative digital sensing, communication, and intelligent decision-making technology for distribution-micro coordination in the new power system
(新型电力系统下配微协同数字化感知、通信与智能决策技术)
- Flexible distribution network planning, standards, and engineering demonstration applications
(柔性配电网规划、标准与工程示范应用)
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| Summary: |
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- The development trend of distributed smart grid formed by the integration of high penetration new energy into distribution networks poses huge challenges to the safe and reliable operation of the system, power quality, and the consumption of new energy. Flexible interconnection distribution technology and distribution-micro collaboration technology based on power electronics technology applications are the main ways to meet these challenges. However, the planning, networking, operation, and control of flexible distribution networks still need further research.
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- 高渗透率新能源在配电网接入形成分布式智能电网的发展态势,对系统的安全可靠运行、电能质量和新能源消纳带来巨大的挑战,基于电力电子技术应用的柔性互联配电技术和配微协同技术是迎接该挑战的主要出路,但当前无论是柔性配电网的规划、组网还是运行、控制还需深入的研究。
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