Risk Analysis of Overhead Line Failure Under Typhoon (Ⅰ): Refined Modeling and Validation of Overhead Line Failure Probability

LI Hongzhong; NI Zhang; ZHOU Yulong

doi:10.13334/j.0258-8013.pcsee.241113

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Risk Analysis of Overhead Line Failure Under Typhoon (Ⅰ): Refined Modeling and Validation of Overhead Line Failure Probability

更新时间：2026-01-04

- Risk Analysis of Overhead Line Failure Under Typhoon (Ⅰ): Refined Modeling and Validation of Overhead Line Failure Probability
- Issue 22, Pages: 8845-8858(2025)
- 作者机构：
  
  1. 上海电力大学电气工程学院, 上海市杨浦区,200090
  2. 国网漯河供电公司,河南省,漯河市,462000
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.241113
  CLC：
- Published：2025
- 稿件说明：
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LI Hongzhong, NI Zhang, ZHOU Yulong. Risk Analysis of Overhead Line Failure Under Typhoon (Ⅰ): Refined Modeling and Validation of Overhead Line Failure Probability[J]. 2025, (22): 8845-8858.
DOI：

LI Hongzhong, NI Zhang, ZHOU Yulong. Risk Analysis of Overhead Line Failure Under Typhoon (Ⅰ): Refined Modeling and Validation of Overhead Line Failure Probability[J]. 2025, (22): 8845-8858. DOI： 10.13334/j.0258-8013.pcsee.241113.

摘要

基于广义应力-强度干涉模型(gSSIM-generalized stress strength interference model)，该文提出一种描述台风灾害下架空线路故障概率的精细化建模方法。首先，建立台风风场和暴雨载荷模型，刻画台风移动过程中杆塔所处位置风力和降雨的变化情况；其次，研究架空线路受台风暴雨影响的故障机理，量化台风暴雨作用下线路、铁塔所受静力载荷以及导线等效风偏角度，明确台风冲击过程，进而构建综合考虑倒塔、断线以及风偏闪络的精细化故障概率模型；同时，针对台风灾害下架空线路不同故障概率模型开展敏感性分析；最后，以某耐张段中实际故障杆塔为例，利用2017年第13号台风“天鸽”的相关数据搭建仿真场景，对所提出的故障概率模型进行验证。

Abstract

Based on the generalized Stress-Strength Interference Model (gSSIM)

this paper proposes a refined modeling method for describing the probability of 220 kV overhead line failure under a typhoon. Firstly

the typhoon wind field and rainstorm load models are established to portray the changes of wind force and rainfall at the tower location during the typhoon movement. Secondly

the failure mechanism of overhead lines affected by typhoons and rainstorms is studied to quantify the effects of typhoons and rainstorms on the load of lines and towers as well as the angle of wind deflection of conductors

and clarify the typhoon impact process. A refined failure probability model is constructed with comprehensive consideration of tower collapse

line disconnection

and wind-induced flashover. Based on the Sobol global sensitivity analysis

the sensitivity of the failure probability of different overhead line failure modes under typhoon with respect to different variables

such as meteorological parameters and structural parameters of overhead lines. Finally

the proposed fault probability model is verified by taking an actual 220 kV tension-resistant section as an example and building a simulation scenario with the data related to Typhoon No. 13

Pigeon

in 2017

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