Test Method for Minimum Critical Thickness of Ice Coating on OPGW Based on BOTDR Monitoring

HAO Yanpeng; MAO Dianming; CHENG Yanting; HUANG Lei; ZHA Chuanyang; 1; HUANG Huan; 2

doi:10.13336/j.1003-6520.hve.20241167

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Test Method for Minimum Critical Thickness of Ice Coating on OPGW Based on BOTDR Monitoring

更新时间：2026-01-09

- Test Method for Minimum Critical Thickness of Ice Coating on OPGW Based on BOTDR Monitoring
- Vol. 51, Issue 7, Pages: 3191-3200(2025)
- 作者机构：
  
  华南理工大学电力学院,广州,510640
- 作者简介：
- 基金信息：
- DOI：10.13336/j.1003-6520.hve.20241167
  CLC：
- Published：2025
- 稿件说明：
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HAO Yanpeng, MAO Dianming, CHENG Yanting, et al. Test Method for Minimum Critical Thickness of Ice Coating on OPGW Based on BOTDR Monitoring[J]. 2025, 51(7): 3191-3200.
DOI：

HAO Yanpeng, MAO Dianming, CHENG Yanting, et al. Test Method for Minimum Critical Thickness of Ice Coating on OPGW Based on BOTDR Monitoring[J]. 2025, 51(7): 3191-3200. DOI： 10.13336/j.1003-6520.hve.20241167.

摘要

覆冰严重威胁光纤复合架空地线(optical fiber composite overhead ground wire，OPGW)安全运行，然而布里渊光时域反射仪(Brillouin optical time domain reflectometer，BOTDR)监测覆冰厚度的范围与感知模型尚未明晰。为此，该文提出了基于BOTDR的OPGW自然覆冰最小临界传感厚度监测方法：当OPGW覆冰厚度较小时，假设布里渊频移只受温度影响，随着OPGW覆冰逐渐增长布里渊频移监测温度误差增大，布里渊频移监测温度超过判定区间时对应的覆冰厚度定义为最小临界传感厚度。在南方电网梅花山防冰减灾重点实验室搭建OPGW覆冰BOTDR监测系统验证了该方法的有效性，研究结果表明：BOTDR在OPGW自然覆冰条件下能监测到其最小临界传感厚度，试验中171 m孤立档OPGW最小临界传感厚度为11.61 mm；当覆冰厚度小于11.61 mm时，BOTDR布里渊频移仅能监测温度，布里渊频移监测温度与微气象终端监测温度最大差值为1.5 ℃，在本文试验用BOTDR的温度精度±2 ℃范围内，BOTDR不能感知小于最小临界传感厚度的轻度覆冰；当覆冰厚度大于11.61 mm时，BOTDR布里渊张力频移与OPGW覆冰张力强线性相关，相关系数为0.99。该文研究为长距离OPGW覆冰BOTDR准确监测提供了理论依据。

Abstract

Ice coating is a serious threat to the safe operation of the optical fiber composite overhead ground wire (OPGW). However

the effective monitor range and sensing model for ice coating thickness using Brillouin optical time domain reflectometry (BOTDR) remain undefined. This paper proposes a BOTDR-based methodology for monitoring the minimum critical sensing thickness of natural ice coating on OPGW. Under thin ice coating conditions

the Brillouin frequency shift is assumed to be solely temperature-dependent. As ice thickness increases

the error in temperature monitored by Brillouin frequency shift measurements grows. The ice thickness at which the temperature monitored by Brillouin frequency shift exceeds its judgment interval is defined as the minimum critical sensing thickness. A BOTDR monitoring system was deployed at Key Laboratory of Ice Prevention & Disaster Reducing of China Southern Power Grid for validation. The results demonstrate that

BOTDR is capable of detecting the minimum critical sensing thickness of OPGW under natural ice coating conditions

and the minimum critical sensing thickness in the test is 11.61 mm.When the ice coating is thinner than the minimum critical sensing thickness

the temperature monitored by Brillouin frequency shift of BOTDR can only monitor the temperature

the maximum difference between the temperature monitored by Brillouin frequency shift and the temperature monitored by the micrometeorological terminal is 1.5 ℃

within the temperature accuracy of ±2 ℃ of the BOTDR used for testing in this paper

and the BOTDR can not sense the light ice coating thinner than the minimum critical sensing thickness. When the ice coating is thicker than the minimum critical sensing thickness

the BOTDR Brillouin frequency shift of the tension-dependent Brillouin frequency shift is strongly linearly correlated with the OPGW ice coating tension with a correlation coefficient of 0.99. The research of this paper provides a theoretical basis for accurate monitoring of ice coating on long-distance OPGW lines based on BOTDR technology.

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