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基于微气象温度解调BOTDR的孤立档耐张段OPGW覆冰监测方法OA

Icing Monitoring Method for Isolated Tension Section OPGW Based on Micro-meteorological Temperature Demodulation BOTDR

中文摘要英文摘要

覆冰严重影响光纤复合架空地线(optical fiber composite overhead ground wire,OPGW)安全运行.布里渊光时域反射仪(Brillouin optical time domain reflectometer,BOTDR)利用OPGW内部的通信光纤作为状态传感和信息传输介质,可能为其提供覆冰监测手段.由于存在光纤对温度应变交叉敏感问题,BOTDR现有的温度应变解调方法不能用于OPGW覆冰监测.该文利用架空输电线路微气象终端监测的温度解调BOTDR张力,提出孤立档耐张段OPGW等值覆冰厚度监测方法.当BOTDR监测温度t1与微气象终端监测温度tm的误差在其精度范围内时,只传感OPGW覆冰温度,不需要解调;当t1与tm的误差超过其精度范围时,BOTDR光纤布里渊频移vB同时受OPGW温度和张力影响,此时利用微气象终端监测的温度解调BOTDR张力,结合孤立档耐张段斜抛物线方程计算OPGW等值覆冰厚度.针对该方法在梅花山凝冻气候灾害与装备安全贵州省野外科学观测站进行覆冰试验,并与称重法、人工观冰法对比研究,结果表明:孤立档耐张段OPGW等值覆冰厚度的BOTDR监测值与称重法最大相差0.60 mm,最大相对误差为5.38%,与人工观冰最大相对误差为8.95%,验证了该文方法的准确性.

Ice coating severely impairs the safe operation of optical fiber composite overhead ground wire(OPGW).The Brillouin optical time domain reflectometer(BOTDR)utilizes communication fibers within OPGW as both status sensing and information transmission media,which may offer an ice monitoring solution.However,existing temperature-strain demodulation methods of BOTDR cannot be directly applied to OPGW ice monitoring due to the cross-sensitivity of op-tical fibers to temperature and strain.This paper proposes a method for monitoring the equivalent ice thickness of OPGW in an isolated tension section by utilizing the temperature measured by micro-meteorological terminals on overhead transmission lines to demodulate the tension from BOTDR.When the error between BOTDR-measured temperature ti and micro-meteorological terminal temperature tm falls within their accuracy range,only ice-induced temperature sensing is required without demodulation;when the temperature error exceeds the accuracy range,indicating that BOTDR Bril-louin frequency shift vB is simultaneously affected by OPGW temperature and tension,the micro-meteorological terminal temperature is employed to demodulate BOTDR tension,and the inclined parabolic equation of isolated tension section is combined to calculate equivalent ice thickness of OPGW.Ice coating experiments based on this method were conducted at the Guizhou Meihua Mountain Field Scientific Observation Station for Freezing Disaster and Equipment Safety.Com-parative studies with the weighing method and manual ice observation show that,for the equivalent ice thickness of isolated tension section OPGW,the maximum deviation between BOTDR monitoring values and the weighing method is 0.60 mm,with a maximum relative error of 5.38%,and the maximum relative error compared with manual observation is 8.95%.These results validate the accuracy of the proposed methodology.

郝艳捧;查传洋;毛典明;黄磊;黄欢

华南理工大学电力学院,广州 510641华南理工大学电力学院,广州 510641华南理工大学电力学院,广州 510641华南理工大学电力学院,广州 510641贵州电网有限责任公司电力科学研究院,贵阳 550000

光纤复合架空地线(OPGW)布里渊光时域反射仪(BOTDR)微气象温度孤立档耐张段覆冰监测

optical fiber composite overhead ground wire(OPGW)Brillouin optical time domain reflectometer(BOTDR)micro-meteorological temperatureisolated tension sectionicing monitoring

《高电压技术》 2026 (2)

509-519,11

中国南方电网有限责任公司防冰减灾重点实验室支撑项目(GZKJXM20222180).Project supported by Program of the Key Laboratory for Ice Prevention and Disaster Reduction of China Southern Power Grid Co.,Ltd.(GZKJXM20222180).

10.13336/j.1003-6520.hve.20250648

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