Signal Denoising and Defect Localization for GIS/GIL Partial Discharge Based on Ultra-high Frequency and Ultrasound Method United

LI Xing; DING Dengwei; XU Yuan; JIANG Jinpeng; 2; CHEN Xiaoxin; 3; WANG Lei; 1

doi:10.13336/j.1003-6520.hve.20240346

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Signal Denoising and Defect Localization for GIS/GIL Partial Discharge Based on Ultra-high Frequency and Ultrasound Method United

更新时间：2025-11-24

- Signal Denoising and Defect Localization for GIS/GIL Partial Discharge Based on Ultra-high Frequency and Ultrasound Method United
- Vol. 51, Issue 5, Pages: 2384-2393(2025)
- 作者机构：
  
  清华四川能源互联网研究院,成都,610213
- 作者简介：
- 基金信息：
- DOI：10.13336/j.1003-6520.hve.20240346
  CLC：
- Published：2025
- 稿件说明：
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LI Xing, DING Dengwei, XU Yuan, et al. Signal Denoising and Defect Localization for GIS/GIL Partial Discharge Based on Ultra-high Frequency and Ultrasound Method United[J]. 2025, 51(5): 2384-2393.
DOI：

LI Xing, DING Dengwei, XU Yuan, et al. Signal Denoising and Defect Localization for GIS/GIL Partial Discharge Based on Ultra-high Frequency and Ultrasound Method United[J]. 2025, 51(5): 2384-2393. DOI： 10.13336/j.1003-6520.hve.20240346.

摘要

局部放电检测是开展气体绝缘组合电器(gas insulated switchgear

GIS)/气体绝缘输电线路(gas insulated transmission line

GIL)设备绝缘状态评估的重要手段，特高频和超声波法是现场局部放电检测常用方法。然而，现场干扰复杂、局放信号传播衰减明显，局放信号信噪比低甚至完全淹没于噪声信号中，导致诊断和定位困难。为此，该文研究提出一种基于相干平均的局部放电特高频和超声信号降噪方法。与传统小波降噪和奇异值分解降噪方法相比，该文方法具有更低的均方误差(mean square error

MSE)，更高的归一化互相关系数(normalized correlation coefficient

NCC)和噪声降低水平(reduction in noise level

RNL)，且该文方法无需复杂的参数选取。在某水电站开展局部放电现场检测，并对特高频和超声信号进行降噪和定位分析。结果表明，采用该文方法，局放信号噪声从十几毫伏降低至1 mV以下，可有效提取出被噪声淹没的局放脉冲。极低信噪比情况下，该文降噪方法也具有良好降噪效果，传统方法则失效。基于降噪后的局放信号成功实现缺陷精确定位，验证了所提降噪方法的有效性。该文研究结果可有效提升局放检测有效性，为GIS/GIL缺陷检测和定位提供了有效支撑。

Abstract

Partial discharge (PD) detection is an important technique for insulation condition evaluation of gas insulated switchgear (GIS)/gas insulated transmission line(GIL). Ultra-high frequency (UHF) and acoustic emission (AE) methods are commonly used in on-site PD detection. However

due to the complex and serious interference and the significant propagation attenuation of PD signals

the signal-to-noise ratio (SNR) of PD signals is extremely low

and even the PD signals are completely submerged in noise

which makes it difficult for PD diagnosis and localization. Therefore

in this paper

a denoising method for PD UHF and AE signals based on coherent averaging was proposed. Compared with the wavelet method and singular value decomposition (SVD) method

the proposed method has lower mean square error (MSE)

higher normalized correlation coefficient (NCC) and reduction in noise level (RNL)

and it does not require complex parameter selection. Then

on-site PD detection was conducted at a hydropower plant

and denoising and localization analysis on UHF and AE signals was performed. The results show that

by using the proposed method

the noise of the PD signal can be reduced from over ten mV to below 1 mV

and the PD pulse submerged in noise can be effectively extracted. Especially

with extremely low SNR

the proposed method can get good denoising performance

while the traditional methods are ineffective. Based on the denoised signals

precise defect localization can be achieved

which verifies the effectiveness of the proposed denoising method. The results of this paper can effectively improve the effectiveness of on-site PD detection

providing important support for GIS/GIL defect detection and localization.

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