摘要
为预测导线疲劳寿命,该文以中国西北地区某输电导线为研究对象,系统收集和分析了该地区连续10余年的气象观测数据,精准获取了风速和风向分布的概率密度函数。该文首先综合考虑导线型号、档距和张力等关键影响因素,构建了4万多种导线绝缘子悬挂体系有限元模型;其次,根据导线刚度特性,筛选出具有最大频率、中位数频率和最小频率的3种典型导线开展深入研究;最后,采用Wöhler安全曲线,结合雨流计数法与Miner线性累计损伤理论,基于实测风速分布规律,评估了不同导线的年度疲劳性能,并建立了输电导线疲劳寿命数据库。在该数据库中输入导线型号、档距和张力等参数,并结合区域风速和风向分布规律,可快速预估导线疲劳寿命,提前维护高风险线路段,显著提高输电导线运维效率,有利于保障电力系统安全稳定运行。该文研究结果可为输电导线疲劳寿命研究和线路运维工程实践提供参考。
[Objective]Although existing research on conductor fatigue life has established a corresponding theoretical basis and provided core support for subsequent calculation work,two key issues remain in engineering applications.First,although the combined dynamic effects of wind speed and direction in the field environment are critical to the actual fatigue evolution process and service life of conductors,existing models insufficiently consider this factor,leading to discrepancies between life predictions based on theoretical calculations and actual engineering observations.Second,the existing theoretical system for fatigue life calculation is complex,requires specified calculation methods,and demands high levels of professional and technical knowledge from customers.As a result,wide promotion and efficient application in the power industry—especially in grassroots operation and maintenance units—are difficult,restricting the transformation of theoretical results into engineering practice.To address these problems,this study proposes a method for evaluating conductor fatigue life based on the probability distributions of wind speed and direction.[Methods]Transmission lines in Northwest China were selected as the research object.More than 10 years of meteorological data from this region were systematically collected and analyzed,and the probability density functions of wind speed and wind direction were accurately obtained.Considering the key factors such as conductor type,span,and tension,more than 40000 finite element models of conductor-insulator string suspension systems were constructed.Three typical conductors corresponding to maximum,median,and minimum frequencies were selected for fatigue analysis based on the first-order positive symmetrical side-bending frequency of the conductor.Nonlinear dynamic response analysis was then carried out for these conductors,and their stress time histories were extracted.Finally,the annual fatigue performance of different conductors was evaluated using the Wöhler safety curve,the rain flow counting method,and Miners linear cumulative damage theory based on the measured wind speed distribution.[Results]The analysis showed the following results:(1)Monitoring of local meteorological conditions revealed that the dominant wind direction in the study area was southeast,and the wind speed distribution conformed to the generalized extreme value distribution with a position parameter of 2.507,a shape parameter of 0.080,and a scale parameter of 1.440.(2)Stress time histories were extracted at the suspension point edge(40 cm),the 1/4-span position,and the midspan position.The stress level at the suspension point edge was considerably higher than that at other positions,and the average stress of the conductor increased with decreasing natural frequency and increasing wind speed.(3)The degree of wind-induced fatigue damage was closely related to the conductors natural frequency and the ambient wind speed.The lower the natural frequency was,the greater the fatigue damage,especially at higher wind speeds.A fatigue performance database of transmission lines was finally established based on conductor parameters.[Conclusions]The findings of this study provide an efficient and practical tool for transmission line operation and maintenance.By entering key parameters such as conductor type,tension,and span and combining them with regional wind speed and direction data,the method enables rapid estimation of conductor fatigue life,scientific assessment of remaining service life,proactive maintenance of high-risk line segments,and significant improvement in the operational efficiency of transmission line maintenance.Its application contributes to ensuring the safety and stability of power system operation.
作者
王凯
郝键铭
张宏杰
袁守浩
WANG Kai;HAO Jianming;ZHANG Hongjie;YUAN Shouhao(School of Highway,Chang'an University,Xi'an 710064,China;State Grid Electric Power Engineering Research Institute Co.,Ltd.,Beijing 100055,China;CGN(Beijing)New Energy Technology Co.,Ltd.,Beijing 100070,China)
出处
《清华大学学报(自然科学版)》
北大核心
2026年第3期586-596,共11页
Journal of Tsinghua University(Science and Technology)
基金
国家自然科学基金项目(52508528)
陕西省自然科学基金项目(2023-JC-QN-0597)。
关键词
输电导线
有限元模型
气象数据
雨流计数法
疲劳性能评估
线路运维优化
transmission conductor
finite element model
meteorological data
rain-flow counting method
fatigue performance assessment
line operation and maintenance optimization
