SF6压力对GIS典型缺陷局部放电检测灵敏度的影响
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TM854

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国家重点研发计划资助项目(2021YFF0603100)


Effect of SF6 pressure on the sensitivity of partial discharge detection of typical defects in GIS
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    摘要:

    气体绝缘开关设备(gas insulated switchgear,GIS)内部气压是影响局部放电检测灵敏度的重要因素。在局部放电实验平台中构建尖端、悬浮、气隙与沿面缺陷模型,基于特高频法、高频电流法与超声法开展气压0.2~0.5 MPa下局部放电信号特征的检测实验,并对比了高频电流法和超声法局部放电检测的灵敏度。实验结果表明:气压是影响尖端、悬浮与沿面缺陷放电的关键参数,3种缺陷放电起始电压与气压成正比,同一电压下的放电幅值和脉冲次数与气压成反比;气隙缺陷放电源于绝缘层内部气泡,因此设备气压对气隙缺陷放电影响不大。高频电流法可实现不同气压下的悬浮缺陷有效检测,但未测得气隙和尖端缺陷局部放电信号;SF6压力降低,高频电流对沿面缺陷的检测灵敏度有所提升,但仍低于特高频法。超声法可实现不同气压下的悬浮和尖端缺陷有效检测,但未测得气隙和沿面缺陷局部放电信号;SF6压力降低,超声法对尖端缺陷的检测灵敏度提高(当气压为0.2 MPa时,超声法对尖端缺陷的检测灵敏度与特高频法相当)。

    Abstract:

    The gas pressure of gas insulated switchgear (GIS) is the key factor affecting the sensitivity of partial discharge (PD) detection. In this paper,four defect models,tip,suspension,void,surface,are constructed on the PD experimental platform. PD experiments are carried out at different pressures,0.2 MPa-0.5 MPa. Ultra-high frequency (UHF),high-frequency current transform (HFCT) and acoustic emission (AE) methods are used,and the sensitivity of HFCT and AE methods for PD signal detection is compared. The results show that SF6 pressure is a key parameter affecting tip discharge,suspension discharge and surface defect discharge. Under these defects,the partial discharge initial voltage (PDIV) is proportional to SF6 pressure,and the discharge amplitude and pulse number are inversely proportional to SF6 pressure. For the void defect,the change of external SF6 pressure does not affect the void gas pressure,and thus does not significantly affect the cavity discharge intensity. The HFCT method can effectively detect suspension defects, however,it cannot detect the PD signals of void and tip defects. As the SF6 pressure decreases,the sensitivity of HFCT method to detect surface defects increases,although the sensitivity is not comparable to that of the UHF method. The AE method can detect suspension and tip defects effectively, but cannot detect PD signals of void and surface defects. The detection sensitivity of the AE method for tip defects gradually increases with the decrease of SF6 pressure. When the pressure is 0.2 MPa,the detection sensitivity is equivalent to that of the UHF method.

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孔凡珺,马径坦,谌珉灏,张潮海. SF6压力对GIS典型缺陷局部放电检测灵敏度的影响[J].电力工程技术,2023,42(3):233-241

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  • 收稿日期:2022-10-12
  • 最后修改日期:2022-12-21
  • 录用日期:2022-06-22
  • 在线发布日期: 2023-05-19
  • 出版日期: 2023-05-28
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