Research on Partial Discharge Characteristics of Suspension Defect in GIS under the Action of Voltage and Current

Zhenghong Bao, Jiyun Ren, Lili Wang, Shengjie Wang, Yao Chen, Zibin Li, Zile Wang, Yongfu Ma, Liao Li, Huan Chen
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Abstract

Gas insulated switchgear (GIS) is a critical component in power system, and the insulation testing is crucial before putting it into operation. Despite passing AC withstand tests, some GIS equipment exhibit insulation faults during operation. Existing AC withstand tests fall short in detecting all insulation faults in GIS equipment. To address this issue, a proposal is made to conduct a comprehensive simulation of actual GIS equipment operating conditions through a combined voltage and current boost test, aiming to address the limitations of existing tests. This study, based on a 330kV GIS test platform, compares the partial discharge characteristics of suspension defects under traditional voltage-boosting mode and the combined voltage and current boost mode. The research investigates the influence of simultaneously applying voltage and current on discharge characteristics. It is observed that the voltage and current boost combined mode significantly increase the partial discharge inception voltage (PDIV) and the corresponding apparent discharge compared to other modes. The apparent discharge quantity after a certain period of current flow during the discharge development process is greater than that observed in other modes. The current notably enhances the ultrasonic amplitude of partial discharge. These findings establish an experimental foundation for conducting voltage and current combined boost tests in the field.
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电压和电流作用下 GIS 悬挂缺陷的局部放电特性研究
气体绝缘开关设备(GIS)是电力系统中的关键部件,在投入运行前进行绝缘测试至关重要。尽管通过了交流耐压测试,但一些 GIS 设备在运行过程中仍会出现绝缘故障。现有的交流耐压测试无法检测出 GIS 设备的所有绝缘故障。针对这一问题,我们提出了一项建议,即通过电压和电流联合升压测试,全面模拟 GIS 设备的实际运行条件,以解决现有测试的局限性。本研究基于 330kV GIS 试验平台,比较了传统升压模式和电压电流联合升压模式下悬浮缺陷的局部放电特性。研究调查了同时施加电压和电流对放电特性的影响。研究发现,与其他模式相比,电压和电流升压组合模式显著提高了局部放电起始电压(PDIV)和相应的视放电量。在放电发展过程中,电流流动一段时间后的视放电量大于其他模式下的视放电量。电流显著增强了局部放电的超声振幅。这些发现为在现场进行电压和电流联合升压试验奠定了实验基础。
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