负极高压海底观测网供电系统海缆故障定位方法OA
Fault Location Method for Submarine Cables in the Negative High-voltage Power Supply System of Undersea Observation Networks
由于海底观测网具有较低的可观测性和可达性以及单极供电回路内海水-电极的独特供电结构,使得海缆故障定位变得尤为复杂.该文聚焦于海底电缆故障定位这一关键难题,提出一种基于频变阻抗特性的定位方法.该方法基于海缆-海水-电极的阻抗特性,建立海底观测网单极供电回路的阻抗模型.通过π型等效建模结合电化学分析,构建海水-电极-海缆频变阻抗模型,进一步在故障条件下计算输入阻抗谱,生成将故障位置与阻抗谐振频率相关联的定位函数.该方法的核心在于仅依靠岸基站采集的电气数据,通过宽频信号注入生成定位函数,从而实现精确的故障距离计算.研究结果表明,该方法在海底电缆故障定位方面具有高精度,并且对不同故障位置和过渡电阻具有良好的鲁棒性.
The power supply system is fundamental to the safe and reliable operation of undersea observation networks.Due to the low observability and accessibility of undersea observation networks,combined with the unique power supply structure involving seawater and electrodes in a monopolar power supply loop,submarine cable fault localization becomes particularly complex.This paper focuses on the critical challenge of submarine cable fault localization.To address the deficiencies in existing impedance modeling of power supply loops in undersea observation networks,this paper develops a frequency-variable impedance model for the seawater-electrode-cable loop through π-type equivalent modeling of submarine cables combined with electrochemical analysis of the seawater-electrode interface.By modeling the impedance network of the post-fault seawater-electrode-cable loop,the input impedance is obtained.This method relies solely on electrical data collected from shore stations to derive a complete and accurate frequency-variable input impedance spectrum of the power supply loop.Consequently,a novel method for submarine cable fault localization based on frequency-dependent impedance characteristics is proposed.This method generates a localization function through frequency sweeping,correlating fault distance with impedance,thereby achieving precise fault distance calculation.The research results indicate that this method attains high precision in submarine cable fault localization and exhibits good robustness against varying fault locations and transition resistances,marking a significant advancement in this field.This breakthrough enhances the protective capabilities and fault localization accuracy for the power supply system in undersea observation networks and promotes the application of cathodic DC technology in various marine development and engineering projects.
张尔佳;余墨多;黄文焘;邰能灵
电力传输与功率变换控制教育部重点实验室(上海交通大学),上海市 闵行区 200240电力传输与功率变换控制教育部重点实验室(上海交通大学),上海市 闵行区 200240电力传输与功率变换控制教育部重点实验室(上海交通大学),上海市 闵行区 200240电力传输与功率变换控制教育部重点实验室(上海交通大学),上海市 闵行区 200240
信息技术与安全科学
海水-电极回路频变阻抗谱电化学反应故障定位海底观测网
seawater-electrode loopfrequency-variable impedance spectrumelectrochemical reactionfault localizationundersea observation networks
《中国电机工程学报》 2026 (5)
1942-1953,中插17,13
国家自然科学基金项目(面上项目)(521707048).Project Supported by National Natural Science Foundation of China(General Program)(521707048).
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