基于云模型的动态调整拓扑限制短路电流快速开关布点决策综合评价方法

doi:10.19595/j.cnki.1000-6753.tces.242361

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摘要随着电网主网架结构的不断加强和供电负荷需求的增长,短路电流的超标趋势逐渐限制着电网的发展和安全经济运行。针对动态调整拓扑限制短路电流措施中的快速开关布点决策问题,提出基于云模型的动态调整拓扑限制短路电流快速开关布点决策综合评价方法。首先,以典型接线方式为例,讨论了快速开关应用于变电站内及线路不同场景下的布点选择,通过采取动态调整拓扑限制短路电流措施后的相关影响因素,构建包含短路电流、暂态稳定、静态安全、供电可靠性、实施费用五个方面的快速开关布点决策综合评价体系;其次,采用主客观结合的层次分析法（AHP）-熵权法求取各指标的综合权重,并通过构建云理论评价模型从不同的快速开关布点方案中确定最佳布点方案;最后,通过我国某区域实际电网运行实测数据进行仿真,验证所提评价方法的有效性。

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关键词 ：短路电流, 综合评价, 快速开关布点, 拓扑调整, 云模型

Abstract：Fast switch location decision-making lacks a comprehensive evaluation method for short-circuit current limitation measures through dynamic topology adjustment. This paper proposes a cloud model-based comprehensive evaluation method for dynamic topology-adjusted short-circuit current limitation measures, grounded in the concept of scheme formation and evaluation.
Firstly, the location selection of fast switches in substations and lines under typical wiring modes is discussed. After determining the set of fast switch location scheme sets, a comprehensive evaluation system for fast switch location decision-making is established by combining relevant influencing factors under dynamic topology adjustment for short-circuit current limitation. This system encompasses five aspects: short-circuit current, transient stability, static security, power supply reliability, and implementation cost. Secondly, the Analytic Hierarchy Process-Entropy Weight method, which combines the subjective and objective factors, is used to determine the comprehensive weight matrix of the evaluation index system. Subsequently, a cloud theory-based evaluation model is constructed. The digital feature parameters of a hierarchical cloud model are obtained for each index corresponding to the grading level. Standard evaluation cloud models are then established, and the evaluation index of the cloud correlation degree is calculated. Accordingly, the comprehensive evaluation matrix is obtained. Then, the weighted membership degrees of each location scheme set across evaluation levels are calculated by combining the weight matrix and evaluation matrix. Following the maximum membership principle, the evaluation level of each location scheme is determined. Finally, simulations using operational data from a regional power grid in China validate the effectiveness of the proposed method.
The main contributions of this paper are as follows. (1) A comprehensive evaluation system for fast switch location decision-making is established, ensuring short-circuit current limitation effectiveness while holistically considering transient stability, static security, power supply reliability, and implementation costs. The proposed system enhances decision-making rationality and supports grid development. (2) The Analytic Hierarchy Process-Entropy Weight method reduces subjective bias. It ensures the rationality and reliability of indicator weights, considering both expert experience and the actual essential indicators. (3) Based on cloud theory and the quantitative criteria of each index evaluation grade, the comprehensive evaluation model can overcome the fuzziness and randomness between the quantitative index value and the evaluation grade boundary, improving the engineering applicability. (4) The simulation results demonstrate that the proposed model and method intuitively give the comprehensive evaluation results and ranking of each location scheme, which provides a basis for the decision-making and application of dynamic adjustment topology to limit the distribution of short-circuit current fast switches.

Key words： Short-circuit current comprehensive evaluation fast switch location decision-making topology adjustment cloud model

收稿日期: 2024-12-26

PACS:

TM712

基金资助:国家自然科学基金项目（U2003110）和国网陕西省电力有限公司经济技术研究院科学技术项目（SGSNJY00GPJS2400036）资助

通讯作者: 王紫童女,1999年生,硕士研究生,研究方向为短路电流。E-mail: 1049914717@qq.com

作者简介: 刘家军男,1967年生,教授,博士生导师,研究方向为电力系统控制与保护、电力系统安全评估等。E-mail: liujiajun-88@163.com

引用本文:

刘家军, 王紫童, 孙骥, 林皓琨, 李晨婧. 基于云模型的动态调整拓扑限制短路电流快速开关布点决策综合评价方法[J]. 电工技术学报, 2025, 40(24): 8093-8107. Liu Jiajun, Wang Zitong, Sun Ji, Lin Haokun, Li Chenjing. A Comprehensive Evaluation Method Based on Cloud Models for Fast Switch Location Decision-Making in Short-Circuit Current Limitation Measures by Dynamic Adjustment of Topology. Transactions of China Electrotechnical Society, 2025, 40(24): 8093-8107.

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