Assessing a Health Index Algorithm for High Voltage Overhead Power Lines

2022 AEIT International Annual Conference (AEIT) Pub Date : 2022-10-03 DOI:10.23919/AEIT56783.2022.9951791

Antonio Di Pasquale, M. Pagano, C. Petrarca, Francesco Volpe

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引用次数: 1

Abstract

High Voltage (HV) overhead power lines are complex systems of interconnected elements used to move huge amounts of electrical energy over national and international distances. Elements of overhead power lines are towers, insulator chains, bare conductors and accessories. They are designed according to the rated values of current, voltage and temperature, in order to satisfy an expected life, which is typically estimated in 50 years. As a consequence of the stresses determined by the operating conditions and the environment external agents, all the elements of the power lines are subject to ageing. Degradation mechanisms reduce power line useful life time, thus producing conditions for fault occurrences. Therefore, actually, models for assessing ageing and residual life of power line elements are topics of great interest. In this paper, an Health Index (HI) procedure for power conductors is proposed. The procedure assesses the mechanical degradation mechanisms acting on the energy carrier as a function of internal and external stress factors. Basing on the IEC Standards, a strength-stress model is formulated. Numerical simulations give evidence to the HI curves obtained as result of the proposed ageing model.

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高压架空线路健康指数算法评估

高压(HV)架空电力线是由相互连接的元件组成的复杂系统，用于在国内和国际距离上传输大量电能。架空电力线的元件有塔、绝缘子链、裸导体和附件。它们是根据电流、电压和温度的额定值设计的，以满足预期寿命，通常估计为50年。由于运行条件和外部环境因素所决定的应力，电力线的所有元件都会老化。退化机制减少了电力线的使用寿命，从而为故障的发生创造了条件。因此，电力线元件老化和剩余寿命的评估模型实际上是人们非常感兴趣的课题。本文提出了一种电力导体健康指数(HI)方法。该程序评估作用于能量载体的机械降解机制，作为内部和外部应力因素的函数。根据IEC标准，建立了强度-应力模型。数值模拟结果证实了所提出的老化模型所得到的HI曲线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 AEIT International Annual Conference (AEIT)

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