The grounding grid buried in the earth will become a hidden danger to the safety of substations due to some faults of breaks or thinner conductors in corrosion.A novel method to get accurate status of grounding grid w...The grounding grid buried in the earth will become a hidden danger to the safety of substations due to some faults of breaks or thinner conductors in corrosion.A novel method to get accurate status of grounding grid was proposed based on measuring magnetic induction intensity.The basic structure of grounding grid without working drawing was concluded,and the positions and the status of faults were diagnosed by this method.The completed detecting system,including hardware device of data measurement,diagnosis,and analysis software,was introduced concisely.The results of simulations and applications show that this method is simple and effective in the practical engineering.展开更多
为有效提高变电站接地网导体故障诊断的准确性,以某35 k V变电站为依托,基于量纲相似原理设计和定制了不规则形状的接地网模型,根据接地网模型的地表电位和地表磁感应强度的计算结果,通过模拟典型故障,对采用地表电位和磁感应强度诊断...为有效提高变电站接地网导体故障诊断的准确性,以某35 k V变电站为依托,基于量纲相似原理设计和定制了不规则形状的接地网模型,根据接地网模型的地表电位和地表磁感应强度的计算结果,通过模拟典型故障,对采用地表电位和磁感应强度诊断接地网典型故障的测试结果进行了对比,总结了接地网典型故障时地表电位和磁感应强度的变化规律,据此提出了基于灰色关联理论的接地网状态评价指标。结果表明,接地网导体节点处电位较高,网孔上方地表电位略低;导体上方磁感应强度较高,且激励电流注入点处的地表磁感应强度最大;所提出的接地网导体健全度评价指标可准确判断接地网故障类型和故障位置。展开更多
为进一步提高变电站接地网故障诊断的准确性,本文以某实际35 k V变电站接地网为研究对象,通过模拟接地网导体腐蚀、断裂、虚焊等典型故障,对接地网正常与典型故障下的地表电位和磁感应强度进行了测试分析。试验结果表明:接地网导体出现...为进一步提高变电站接地网故障诊断的准确性,本文以某实际35 k V变电站接地网为研究对象,通过模拟接地网导体腐蚀、断裂、虚焊等典型故障,对接地网正常与典型故障下的地表电位和磁感应强度进行了测试分析。试验结果表明:接地网导体出现不同故障类型时,地表电位和磁感应强度呈现出不同的变化规律,综合分析接地网的地表电位和磁感应强度可较为准确地实现变电站接地网故障诊断及故障类型识别。接地网存在混合故障时,故障导体地表电位和磁感应强度变化规律与单一故障的情形类似,但变化幅度更大。研究结果可为变电站接地网的故障诊断提供重要依据。展开更多
基金This work was supported in part by the Scientific Research Foundation of Doctor Degree in North China Electric Power University(200912008).
文摘The grounding grid buried in the earth will become a hidden danger to the safety of substations due to some faults of breaks or thinner conductors in corrosion.A novel method to get accurate status of grounding grid was proposed based on measuring magnetic induction intensity.The basic structure of grounding grid without working drawing was concluded,and the positions and the status of faults were diagnosed by this method.The completed detecting system,including hardware device of data measurement,diagnosis,and analysis software,was introduced concisely.The results of simulations and applications show that this method is simple and effective in the practical engineering.
文摘为有效提高变电站接地网导体故障诊断的准确性,以某35 k V变电站为依托,基于量纲相似原理设计和定制了不规则形状的接地网模型,根据接地网模型的地表电位和地表磁感应强度的计算结果,通过模拟典型故障,对采用地表电位和磁感应强度诊断接地网典型故障的测试结果进行了对比,总结了接地网典型故障时地表电位和磁感应强度的变化规律,据此提出了基于灰色关联理论的接地网状态评价指标。结果表明,接地网导体节点处电位较高,网孔上方地表电位略低;导体上方磁感应强度较高,且激励电流注入点处的地表磁感应强度最大;所提出的接地网导体健全度评价指标可准确判断接地网故障类型和故障位置。
文摘为进一步提高变电站接地网故障诊断的准确性,本文以某实际35 k V变电站接地网为研究对象,通过模拟接地网导体腐蚀、断裂、虚焊等典型故障,对接地网正常与典型故障下的地表电位和磁感应强度进行了测试分析。试验结果表明:接地网导体出现不同故障类型时,地表电位和磁感应强度呈现出不同的变化规律,综合分析接地网的地表电位和磁感应强度可较为准确地实现变电站接地网故障诊断及故障类型识别。接地网存在混合故障时,故障导体地表电位和磁感应强度变化规律与单一故障的情形类似,但变化幅度更大。研究结果可为变电站接地网的故障诊断提供重要依据。