基于全网故障可观测的配电网行波定位装置优化配置方法

蒋素霞<sup>1</sup>; 邓 丰<sup>1</sup>; 祖亚瑞<sup>2</sup>; 李鑫瑜<sup>1</sup>

引用本文:	蒋素霞,邓丰,祖亚瑞,等.基于全网故障可观测的配电网行波定位装置优化配置方法[J].电力系统保护与控制,2023,51(20):25-35.[点击复制]
	JIANG Suxia,DENG Feng,ZU Yarui,et al.Optimal configuration method of traveling wave fault location equipment in a distribution network based on fault observability of the whole network[J].Power System Protection and Control,2023,51(20):25-35[点击复制]

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基于全网故障可观测的配电网行波定位装置优化配置方法
蒋素霞¹,邓丰¹,祖亚瑞²,李鑫瑜¹
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(1.长沙理工大学电气与信息工程学院，湖南长沙 410114;2.国家电网石家庄供电公司，河北石家庄 050052)

摘要:

配电网结构复杂、分支线路众多，利用较少的行波定位装置实现全网故障定位具有显著经济效益。基于此，提出了一种基于全网故障可观测的行波定位装置优化配置方法。首先，引入树形结构图，定义配电网线路各节点间的层级关系。并根据行波传输特性，提出了装置配置基本条件：在目标配电网树形结构图中，邻接节点与其父节点至少有一个节点配置装置。将该基本条件作为约束，建立以装置数量最少化为目标函数的数学模型。模型中引入权重系数，量化线路长度、历史故障率对装置配置需求程度的影响。最后，使用改进灰狼算法求解模型最优解，形成最优配置方案。仿真算例结果表明，基于所提优化配置方法，在满足定位精度的前提下可显著减少行波定位装置数量、降低投资成本，故障定位误差小于100 m。且在线路N1情况下具有一定的适应性，满足实际工程需求。

关键词: 配电网行波定位优化配置全网故障可观测改进灰狼算法

DOI：10.19783/j.cnki.pspc.230083

投稿时间：2023-01-20修订日期：2023-06-19

基金项目:国家自然科学基金项目资助(52077008)；湖南省湖湘青年科技创新人才项目资助(2021RC3097)；湖南省自然科学基金杰出青年项目资助(2022JJ10048)

Optimal configuration method of traveling wave fault location equipment in a distribution network based on fault observability of the whole network

JIANG Suxia¹,DENG Feng¹,ZU Yarui²,LI Xinyu¹

(1. College of Electrical and Information Engineering, Changsha University of Science & Technology, Changsha 410114, China; 2. State Grid Shijiazhuang Power Supply Company, Shijiazhuang 050052, China)

Abstract:

A distribution network has complex structure and numerous branch lines, and using less traveling wave fault location equipment to achieve fault location throughout the network has significant economic benefits. Based on this, a method for optimizing the configuration of traveling wave fault location equipment based on observable faults across the entire network is proposed. First, a tree structure diagram is introduced to define the hierarchical relationship between nodes in the distribution network. Then, based on the characteristics of traveling wave transmission, the basic conditions for device configuration are proposed: in the target distribution network tree structure diagram, at least one adjacent node and its parent node are configured with devices. A mathematical model is established with the objective function of minimizing the number of devices using this basic condition as a constraint. The model introduces weight coefficients to quantify the impact of line length and historical fault rate on the degree of device configuration demand. Finally, the improved grey wolf algorithm is used to find the optimal solution of the model and form the optimal configuration scheme. The simulation results show that based on the proposed optimized configuration method, the amount of traveling wave fault location equipment can be significantly reduced while meeting the positioning accuracy requirement, reducing investment costs. The fault positioning error is less than 100 m. It also has a certain adaptability in the N1 case of the line, meeting practical engineering needs.

Key words: distribution network traveling wave positioning optimal configuration observed fault of the whole network improved grey wolf algorithm

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