The most important elements of “intellectual networks” (Smart Grid) are the systems of monitoring the parameters of electrical equipment. Information-measuring systems (IMS), which described in this paper, were prop...The most important elements of “intellectual networks” (Smart Grid) are the systems of monitoring the parameters of electrical equipment. Information-measuring systems (IMS), which described in this paper, were proposed to use together with rapid digital protection against short-circuit regimes in transformer windings. This paper presents an application’s experience of LVI-testing, some results of the use of Frequency Response Analysis (FRA) to check the condition of transformer windings and infra-red control results of electrical equipment. The LVI method and short-circuit inductive reactance measurements are sensitive for detecting such faults as radial, axial winding deformations, a twisting of low-voltage or regulating winding, a losing of winding’s pressing and others.展开更多
本文对一起由零屏引出线绝缘损坏所导致的220 k V油浸式电流互感器内部故障进行分析。此故障表现为绝缘油中溶解气体严重超标,总烃3 668μL/L、乙炔2 227μL/L,三比值编码为102,判断认为设备内部存在电弧放电故障。设备返厂解体前,对其...本文对一起由零屏引出线绝缘损坏所导致的220 k V油浸式电流互感器内部故障进行分析。此故障表现为绝缘油中溶解气体严重超标,总烃3 668μL/L、乙炔2 227μL/L,三比值编码为102,判断认为设备内部存在电弧放电故障。设备返厂解体前,对其进行了介质损耗因数、电容量、局部放电检测,除电容量略有超标外,其他检测结果无异常。解体检查发现该台设备零屏引出线根部断裂,与之对应的一次绕组导电杆存在明显电蚀痕迹、并有炭黑沉积。经综合分析认为,此故障由零屏引出线根部绝缘损坏所致,由初始低能火花放电逐步发展为电弧放电,并在零屏断裂处形成多点接触导致环流过热,使得油中溶解气体严重超标。展开更多
文摘The most important elements of “intellectual networks” (Smart Grid) are the systems of monitoring the parameters of electrical equipment. Information-measuring systems (IMS), which described in this paper, were proposed to use together with rapid digital protection against short-circuit regimes in transformer windings. This paper presents an application’s experience of LVI-testing, some results of the use of Frequency Response Analysis (FRA) to check the condition of transformer windings and infra-red control results of electrical equipment. The LVI method and short-circuit inductive reactance measurements are sensitive for detecting such faults as radial, axial winding deformations, a twisting of low-voltage or regulating winding, a losing of winding’s pressing and others.
文摘本文对一起由零屏引出线绝缘损坏所导致的220 k V油浸式电流互感器内部故障进行分析。此故障表现为绝缘油中溶解气体严重超标,总烃3 668μL/L、乙炔2 227μL/L,三比值编码为102,判断认为设备内部存在电弧放电故障。设备返厂解体前,对其进行了介质损耗因数、电容量、局部放电检测,除电容量略有超标外,其他检测结果无异常。解体检查发现该台设备零屏引出线根部断裂,与之对应的一次绕组导电杆存在明显电蚀痕迹、并有炭黑沉积。经综合分析认为,此故障由零屏引出线根部绝缘损坏所致,由初始低能火花放电逐步发展为电弧放电,并在零屏断裂处形成多点接触导致环流过热,使得油中溶解气体严重超标。