On the effective length of transmission line grounding conductors and the validity of the point-source model in GPR responses

2022 Workshop on Communication Networks and Power Systems (WCNPS) Pub Date : 2022-11-17 DOI:10.1109/WCNPS56355.2022.9969740

C. M. Moraes, Marco A. de Brito Ribeiro, A. Martins-Britto

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Abstract

Due to long extensions involved, being exposed to the environment, and occupying large amounts of space, transmission lines (TLs) eventually interfere electromagnetically with other metallic structures. Electromagnetic interferences (EMIs) often generate risks to the safety of the installations and people involved. Realistic approaches to address EMI studies are often computationally intensive. Thus, simplified models that accurately represent real phenomena are very important. In this context, this paper determines the effective distance from the observation point in which the TLs tower grounding system can be replaced by a simplified point-source model. A hypothetical case of parallelism is performed to validate the proposed methodology. Results show that from a distance of three times the counterpoise conductors length, the simplified model can be used in several hypothetical scenarios of discrepancy. The results obtained using the effective distance and the simplified model presented a 2.89% discrepancy and an improvement of 11.77% in software performance.

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传输线接地导线有效长度及点源模型在探地雷达响应中的有效性

由于涉及的延伸时间长，暴露在环境中，占用大量空间，传输线(TLs)最终会对其他金属结构产生电磁干扰。电磁干扰(EMIs)经常对相关设施和人员的安全产生威胁。处理电磁干扰研究的实际方法往往需要大量的计算。因此，能够准确反映真实现象的简化模型是非常重要的。在此背景下，本文确定了用简化的点源模型代替TLs塔接地系统与观测点的有效距离。通过一个假设的并行情况来验证所提出的方法。结果表明，在三倍于平衡导线长度的距离上，简化模型可以适用于几种假设的差异情况。有效距离与简化后的模型计算结果相差2.89%，软件性能提高11.77%。

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2022 Workshop on Communication Networks and Power Systems (WCNPS)

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