《电力自动化设备》

引用本文:	王健,吴逸凡,陶安琪,王蕊,王强钢,周念成,刘皓明,易永利.考虑网络增容与无功支撑的混合型智能软开关优化配置[J].电力自动化设备,2024,44(12):18-25.
	WANG Jian,WU Yifan,TAO Anqi,WANG Rui,WANG Qianggang,ZHOU Niancheng,LIU Haoming,YI Yongli.Optimal allocation of hybrid open points considering network capacity increase and reactive power support[J].Electric Power Automation Equipment,2024,44(12):18-25.

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考虑网络增容与无功支撑的混合型智能软开关优化配置
王健¹, 吴逸凡¹, 陶安琪², 王蕊¹, 王强钢³, 周念成³, 刘皓明¹, 易永利⁴
1.河海大学电气与动力工程学院，江苏南京 211100;2.国网重庆市电力公司电力科学研究院，重庆 401123;3.重庆大学输变电装备技术全国重点实验室，重庆 400044;4.国网浙江省电力有限公司温州供电公司，浙江温州 325000

摘要:

传统智能软开关(SOP)替换联络开关的工作模式使得支路传输功率完全受到SOP容量约束，限制了含高比例分布式光伏配电网的潮流转移能力。为此设计了结构灵活、控制模式可变的混合型智能软开关(HOP)，并提出了考虑网络增容与无功支撑协同的HOP优化配置方法。分析了HOP在不同支路传输容量下的4种控制模式，并建立了考虑联络线和SOP功率流向的HOP功率模型；为获得光伏出力和负荷需求代表性场景，提出了基于堆叠自编码器特征提取的场景生成方法；考虑到HOP联络开关状态对潮流和网络拓扑的影响，推导含HOP的支路潮流方程约束，建立了考虑配电网重构的HOP优化配置模型，并通过线性化处理将优化配置模型转化为混合整数线性规划问题。算例结果表明HOP能够应对支路增容需求，降低配电网规划成本，提升分布式光伏消纳能力。

关键词: 混合型智能软开关配电网重构网络增容无功支撑场景生成优化配置

DOI：10.16081/j.epae.202410021

分类号:TM564;TM73

基金项目:国家自然科学基金资助项目(52207091)；江苏省自然科学基金资助项目(BK20220977)

Optimal allocation of hybrid open points considering network capacity increase and reactive power support

WANG Jian¹, WU Yifan¹, TAO Anqi², WANG Rui¹, WANG Qianggang³, ZHOU Niancheng³, LIU Haoming¹, YI Yongli⁴

1.School of Electrical and Power Engineering, Hohai University, Nanjing 211100, China;2.State Grid Chongqing Electric Power Research Institute, Chongqing 401123, China;3.State Key Laboratory of Power Transmission Equipment Technology, Chongqing University, Chongqing 400044, China;4.State Grid Zhejiang Wenzhou Power Supply Company, Wenzhou 325000, China

Abstract:

The operation mode of traditional soft open point(SOP) replacing tie switch makes the branch transmission power completely constrained by SOP capacity, which limits the power transfer capability of power distribution network with a high proportion of distributed photovoltaic. Therefore, a hybrid open point(HOP) with flexible structure and variable control mode is designed. An optimal allocation method of HOP considering network capacity increase and reactive power support is proposed. Four control modes of HOP under different branch transmission capacities are analyzed, and a HOP power model considering the power flow direction of the tie line and SOP is established. In order to obtain the representative scenario of photovoltaic output and load demand, a scenario generation method based on stacking sparse autoencoder is further proposed. Considering the influence of HOP switch state on power flow and network topology, the constrains of branch power flow equation with HOP is derived, and the optimal allocation model of HOP considering distribution network reconfiguration is established, and the optimization model is transformed into a mixed integer linear programming problem by linearization. The example results demonstrate that HOP can meet the demand of branch capacity increase, reduce the planning cost of distribution network, and improve the accommodation capacity of distributed photovoltaic.

Key words: hybrid open point distribution network reconfiguration network capacity increase reactive power support scenario generation optimal allocation

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