Geomagnetically Induced Currents (GICs) in Equatorial Region

2018 IEEE 8th International Conference on System Engineering and Technology (ICSET) Pub Date : 2018-10-01 DOI:10.1109/ICSENGT.2018.8606391

F. Kasran, M. H. Jusoh, Siti Amalina Ence Ab Rahim, N. Abdullah

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引用次数: 5

Abstract

GICs is a ground end manifestation associated with the space weather perturbations that should be greatly taken into account by the society. Even though the GICs implication to the power system is not regularly happened, it can cause large scale of system failure. In equatorial, the power system is considered safe since the most intense of geomagnetic storm happened in high latitude. However, the internal damage due to GICs which finally led to the South African power system failure has totally changed the normal perception. Therefore, a preliminary investigation on the GICs activity in equatorial region is performed to understand the space weather impact to the power system. Time derivative of the horizontal magnetic field component (dB/dt) is done to indicate the GICs activity value based on Faraday’s law. All the reported power failures are compiled to produce the threshold value of dB/dt, which possibly cause the harmful effect to the system. Then, dB/dt analysis is extended to show the pattern of GICs activity in function of magnetic latitude and local time. The results reveal that power network in equatorial region has possibly suffered by GIC. Plus, high number of intense GIC activity in this region occurred during dayside.

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赤道地区地磁感应电流(gic)

GICs是与空间天气扰动相关的地面端表现，应引起社会的高度重视。尽管GICs对电力系统的影响并不经常发生，但它也可能导致大规模的系统故障。在赤道地区，地磁风暴最强烈的地区是高纬度地区，因此电力系统被认为是安全的。然而，由gic引起的内部破坏最终导致南非电力系统故障，完全改变了人们的正常看法。因此，为了了解空间天气对电力系统的影响，我们对赤道地区的GICs活动进行了初步研究。根据法拉第定律，对水平磁场分量的时间导数(dB/dt)表示GICs的活度值。所有报告的电源故障都被编译为dB/dt的阈值，可能对系统造成有害影响。然后，将dB/dt分析扩展到地磁纬度和当地时间的函数模式。结果表明，赤道地区的电网可能遭受了GIC的影响。此外，该区域大量强烈的GIC活动发生在白天。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 IEEE 8th International Conference on System Engineering and Technology (ICSET)

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