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面向配电网分布式光伏消纳和可靠性提高的构网型储能优化配置OA

Research on Grid-Forming Energy Storage Configuration for Distributed Photovoltaic Consumption and Reliability Improvement of Distribution Network

中文摘要英文摘要

[目的]高比例分布式光伏并网导致配电网的消纳能力不足,同时新型配电系统的建设对可靠性提出了更高要求.构网型储能凭借灵活的功率同步控制能力,兼具促进新型配电网分布式光伏消纳和可靠性提升的能力.文章提出了一种考虑配电网分布式光伏消纳和可靠性提高的构网型储能优化配置模型.[方法]首先,建立了构网型储能选址定容双层优化模型,上层模型考虑故障状态和负荷重要性,建立了提高配电网可靠性的储能选址模型;下层模型考虑分布式光伏的不确定性,建立了提升分布式光伏消纳能力的储能定容模型;其中,光伏不确定性的概率分布置信集合由1-范数和∞-范数约束,基于分布鲁棒优化方法,采用列与约束生成(column and constraint generation,CCG)算法进行求解.其次,建立了考虑可靠性与分布式光伏消纳和经济性的综合指标体系,采用改进的优劣解距离法求得最优配置方案.最后,以改进的33节点算例系统为例验证所提算法的合理性.[结果]结果表明,相较于传统储能方案,所提模型的可靠性指标提高超过10%,分布式光伏弃光率减小了7.44%,在4个关键节点配置构网型储能可获得最优效果.[结论]所提构网型储能优化配置方法显著提高了配电网的分布式光伏消纳能力和可靠性,为高比例分布式光伏接入配电网的规划投资提供参考.

[Objective]High-penetration distributed photovoltaic(PV)grid integration leads to insufficient power absorption capacity in distribution networks.Meanwhile,the development of new distribution systems imposes higher reliability requirements.Grid-forming energy storage,with its flexible power synchronization control capabilities,possesses the ability to both promote distributed PV consumption and enhance reliability in new distribution networks.This paper proposes an optimal configuration model for grid-forming energy storage that considers both distributed PV consumption and reliability improvement in distribution networks.[Methods]First,a bi-level optimization model for the siting and sizing of grid-forming energy storage is established.The upper-level model considers fault conditions and load importance to establish an energy storage siting model for improving distribution network reliability.The lower-level model considers the uncertainty of distributed PV systems to establish an energy storage sizing model for enhancing PV consumption.Specifically,the confidence set for the probability distribution of PV uncertainty is constrained by 1-norm and ∞-norm constraints,and is solved using the column and constraint ceneration(CCG)algorithm based on the distributionally robust optimization.Second,a comprehensive evaluation index system incorporating reliability,distributed PV consumption,and economic performance is established.The optimal configuration scheme is obtained using an improved Technique for Order Preference by Similarity to Ideal Solution(TOPSIS)method.[Results]The proposed algorithm is validated through a modified 33-node test system.The results show that compared with traditional energy storage schemes,the proposed model improves the reliability index by more than 10%,and reduces the distributed PV curtailment rate by 7.44%.The optimal effect is achieved by configuring grid-forming energy storage at four key nodes.[Conclusions]The proposed grid-forming energy storage optimization configuration method significantly improves the distributed photovoltaic capacity and reliability of distribution network,providing reference for planning and investment in distribution networks with high-penetration distributed PV integration.

胥德玉;黄媛;唐志远;刘俊勇;孙增杰;郝志方

四川大学电气工程学院,成都市 610065四川大学电气工程学院,成都市 610065四川大学电气工程学院,成都市 610065四川大学电气工程学院,成都市 610065国网河北省电力有限公司,石家庄市 050000国网河北省电力有限公司经济技术研究院,石家庄市 050081

信息技术与安全科学

配电网构网型储能可靠性分布式光伏分布鲁棒优化

distribution networkgrid-forming energy storagereliabilitydistributed photovoltaicdistributionally robust optimization

《电力建设》 2026 (1)

1-14,14

国家自然科学基金项目(52207127) This work is supported by the National Natural Science Foundation of China(No.52207127).

10.12204/j.issn.1000-7229.2026.01.001

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