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剩磁是影响电流互感器传变特性的重要因素,剩磁测量对于电流互感器的应用有着重要的意义。为了有效地测量电流互感器铁心剩磁及相关系数,提出了一种利用交流电压源进行剩磁测量的方法。剩磁测量过程使用交流对电流互感器进行充磁,使其达到深度饱和状态。记录电流互感器感应电压,绘制铁心磁通变化曲线,计算电流互感器剩磁及剩磁系数。试验结果表明测得电流互感器剩磁及剩磁系数与理论分析一致,该方法可以准确地测量电流互感器剩磁。 相似文献
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电流互感器的铁芯具有磁滞效应,运行过程中可能会产生剩磁,进而可能加快电流互感器的饱和,导致保护继电器的误动作。针对该现象,分析了电流互感器剩磁产生的机理及其影响因素;在此基础上,重点研究了电流互感器的剩磁衰减规律。基于分形理论的理论计算公式,可计算短路电流开断后系统无残余电流影响的情况下剩磁的大小;利用PSCAD仿真软件进行试验得到故障后电流互感器一次侧有残余电流情况下磁通的衰减规律,即系统发生短路故障后,电流互感器铁芯内磁通会发生不同程度的衰减,并在局部磁滞回线上运行,既不会在故障切除时刻磁通的基础上运行,也不会衰减至0,为抑制剩磁的产生以及分析电网事故提供了基础理论依据。 相似文献
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对于电流互感器饱和铁心的剩磁在额定工况下的实际状态过去一直都是基于假想与推测, 由于剩磁对电流互感器, 特别是对保护用电流互感器的影响很大, 所以我们不能基于简单的猜想与假设来做为继电保护分析判断的依据. 为此, 我们采用新的测试方式进行了现场的实测与实验室模拟试验, 用实测数据来分析判断饱和铁心的剩磁在额定工况下的实际状态, 得到了一个与过去假想与推测不同的结果,这个结果将有助于电网的事故分析. 相似文献
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测量用电流互感器的剩磁影响与现场校验 总被引:1,自引:0,他引:1
通过试验数据说明电流互感器铁芯中剩磁对其误差和电能计量的影响,以及进行电流互感器现场校验的困难。由此,介绍了一种既能减少剩磁影响又可现场自校的新型电流互感器。 相似文献
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雷电定位系统测量的雷电流幅值分布特征 总被引:16,自引:13,他引:16
为满足防雷工程技术对雷电定位系统所测大量雷电流参数的应用需求,在IEEE工作组和国内电力行业规程中采用的雷电流幅值概率分布特性的基础上,通过统计我国典型雷电定位系统监测数据研究了雷电流幅值分布特征。结果表明:采用IEEE推荐的表达形式回归雷电定位系统测量的雷电流幅值累积概率曲线拟合性最好,其结果与IEEE推荐雷电流幅值分布特征符合,与我国当前规程中推荐的曲线有交叉,小幅值部分累积概率值高出规程值20%,大幅值部分累积概率值略小,与高压架空输电线实际雷击绕击跳闸率比设计值偏高相符合。 相似文献
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A study of remanent magnetization is made at the areas of lightning strikes. In the case of triggered lightning (Okushishiku, Hokuriku district), the magnetic direction of the specimens shows a clockwise rotation pattern around the point of lightning strike. At an archaeological site in Miyagi Prefecture, an anticlockwise pattern of the magnetic direction was detected. These results indicate that a stable remanent magnetization is acquired by the strong magnetic field induced surrounding the lightning current, both in negative and positive lightning flashes. Also, a detailed analysis of magnetization clarifies the electric current flow underground caused by the lightning. The study of remanent magnetization will become a useful method to elucidate the path of the lightning current. © 1998 Scripta Technica, Electr Eng Jpn, 123(4): 41–47, 1998 相似文献
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Moriaki Takechi 《Electrical Engineering in Japan》1996,117(4):80-94
This paper proposes a method of analyzing the three-dimensional magnetic field of a system containing coil currents and magnetic substances using virtual currents. Various methods have been presented for analysis of a three-dimensional static field in an open boundary space; however, in a large-scale problem, the computational size easily exceeds the acceptable limit of computing time and machine capacity. The basic idea of the proposed method is to divide the whole region into interior and exterior regions with an artificial boundary and to substitute virtual currents for source currents and magnetic substances within the boundary. The use of virtual currents reduces the number of elements to be analyzed and shortens computing time while maintaining accuracy of analysis. In this paper, a method of determining virtual current is proposed and principal parameters of virtual currents that affect accuracy of analysis are examined. The conditions under which the virtual current method can be applied are examined through analysis of errors introduced by the virtual current method. This method has been applied to analyze magnetic shielding of a magnet for magnetic resonance imaging. This example proves that the proposed method is effective in reducing the scale of analysis and computing time. 相似文献