Assessment of Space Weather Impacts on New Zealand Power Transformers Using Dissolved Gas Analysis

IF 3.7 2区 地球科学
Space Weather Pub Date : 2024-01-30 DOI:10.1029/2023sw003607
S. Subritzky, A. C. Lapthorn, S. Hardie, D. Manus, C. Rodger, M. Dalzell
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引用次数: 0

Abstract

Space weather can have major impacts on electrical infrastructure. Multiple instances of transformer damage have been attributed to geomagnetic storms in recent decades, for example, the Hydro Quebec incident of 1989 and the November 2001 storm in New Zealand. While many studies exist on the impacts of geomagnetic storms on power transformers in New Zealand, no studies exist that employ Dissolved Gas Analysis (DGA) techniques to relate geomagnetic storms to transformer gassing. A relationship has been reported between geomagnetic activity and DGA for South Africa, while none was found in a recent study in Great Britain. This paper attempts to examine this research question by examining dissolved gas data across eight power transformers in different substations in New Zealand from 2016 to 2019. Case studies were conducted which analyzed the DGA readings of each transformer alongside horizontal magnetic field component rate of change measurements at Eyrewell across six geomagnetic storms. These case studies were then augmented with an analysis of the entire data set where magnetic field measurements were compared with individual gas rates to establish a correlation between gas production and geomagnetic activity. Analysis of the results of this study concluded that no link had been found between the production of combustible gasses in a transformer and geomagnetic activity during the observation period. However, we note our dissolved gas analysis was largely in a geomagnetically quieter period, which may limit our analysis. The production of combustible gasses is not correlated to geomagnetic storms for the time period and transformers analyzed.
利用溶解气体分析评估空间天气对新西兰电力变压器的影响
空间天气会对电力基础设施产生重大影响。近几十年来,有多起变压器损坏事件被归咎于地磁暴,例如 1989 年的魁北克水电公司事件和 2001 年 11 月在新西兰发生的风暴。虽然有许多关于地磁暴对新西兰电力变压器影响的研究,但没有研究采用溶解气体分析 (DGA) 技术将地磁暴与变压器放气联系起来。据报道,南非的地磁活动与 DGA 之间存在关系,而英国最近的一项研究则没有发现这种关系。本文试图通过研究 2016 年至 2019 年新西兰不同变电站中八个电力变压器的溶解气体数据来探讨这一研究问题。本文进行了案例研究,分析了每台变压器的 DGA 读数,以及六次地磁暴期间在 Eyrewell 测量的水平磁场分量变化率。在对整个数据集进行分析的基础上,还对这些案例研究进行了补充,将磁场测量值与单个瓦斯率进行了比较,以确定瓦斯产量与地磁活动之间的相关性。对这一研究结果的分析得出结论,在观测期间没有发现变压器中可燃气体的产生与地磁活动之间存在联系。不过,我们注意到,我们的溶解气体分析主要是在地磁比较安静的时期进行的,这可能会限制我们的分析。在分析的时间段和变压器中,可燃气体的产生与地磁暴无关。
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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29.70%
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166
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