Xianhao Fan;Hanhua Luo;Fangwei Liang;Jun Hu;Weidong Liu;Chuanyang Li;Jinliang He
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引用次数: 0
摘要
新电力系统的建设要求必然会给电网的运行和维护带来巨大的挑战和变化。为确保特高压输电设备的安全稳定运行,本研究报告了基于电致发光(EL)的光子计数(PC)方法用于 GIS/GIL 绝缘间隔微缺陷早期检测的原理和初步结果。本研究探讨了电压、气体压力和气体成分对绝缘层光子响应的影响。此外,还探讨了缺陷状态与光子响应特性之间的相应关系,以及缺陷诱发的电致发光机制及其演变。研究结果表明,在局部放电 (PD) 开始之前的较低电场中,PC 测量对毫米级缺陷尺寸、位置和形态的变化具有很高的灵敏度。因此,本文揭示了使用基于 PC 测量的方法对超高压输电设备中的微缺陷进行早期检测的广阔前景。
Photon Count Technique as a Potential Tool for Insulation Micro-Defect Detection: Principles and Primary Results
The requirements for the construction of a new power system inevitably pose significant challenges and changes to the operation and maintenance of the power grid. To ensure the safe and stable operation of ultra-high voltage (UHV) transmission equipment, this work reports on the principles and preliminary results of using electroluminescence (EL)-based photon counting (PC) methods for early detection of micro-defects in GIS/GIL insulation spacer. In this study, the impact of voltage, gas pressure, and gas composition on the photon response of insulation is examined. Furthermore, the corresponding relationship between defect status and photon response characteristics is explored, along with the discussion of the EL mechanism and its evolution induced by defects. The research results demonstrate that PC measurement exhibits high sensitivity to variations in millimeter-scale defect size, position, and morphology at lower electric fields before partial discharge (PD) initiation. With this regard, this paper reveals promising prospects for the early detection of micro-defects in UHV transmission equipment using PC measurement-based methods.
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