考虑电感效应的接地装置场路耦合分析方法

2019 IEEE 3rd International Conference on Green Energy and Applications (ICGEA) Pub Date : 2019-03-01 DOI:10.1109/ICGEA.2019.8880780

Pengcheng Wang, Lei Guo, Bin Liu, Y. Zeng, Sixiang Chen, Lijun Zhou

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引用次数: 0

摘要

实验表明，在低土壤电阻率条件下，冲击电流作用下接地装置的电感效应尤为明显。基于传输线理论和有限元色散分析理论，采用场路耦合法建立了接地装置暂态分析模型。该方法考虑了接地导体之间的电磁耦合，能准确反映接地装置在低土壤电阻率条件下的冲击特性。该方法用于计算0-100kHz范围内单个接地体的全频域阻抗值和阻抗角，与CDEGS的结果基本一致。对导线段的散度进行了比较，结果吻合较好。因此，该场路耦合模型可以有效地分析接地装置的冲击特性。

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Field-Circuit Coupling Analysis Method for Grounding Devices Considering Inductance Effect

Experiments show that the inductance effect of grounding device under impulse current is especially obvious at low soil resistivity. Based on the theory of transmission line and the theory of finite element dispersion analysis, a transient analysis model of grounding device is established by field-circuit coupling method (FCM). The method considers the electromagnetic coupling between grounding conductors and can accurately reflect the impact characteristics of grounding devices under low soil resistivity. This method is used to calculate the impedance value and impedance angle of a single grounding body in full frequency domain within 0-100kHz, which is basically consistent with the results of CDEGS. The divergence of the conductor segment is compared and the results are in good agreement. Therefore, the field-circuit coupling model can effectively analyze the impact characteristics of grounding devices.

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2019 IEEE 3rd International Conference on Green Energy and Applications (ICGEA)

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