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Space weather impacts on ground-based energy infrastructure

Research output: ThesisMaster's Thesis

Published
Publication date2021
QualificationMasters by Research
Awarding Institution
Supervisors/Advisors
Award date28/09/2021
Publisher
  • Lancaster University
<mark>Original language</mark>English

Abstract

It is well documented that space weather may impact electricity infrastructure. Several widespread blackouts have been observed in the past few
decades and directly linked to the largest geomagnetic storms (e.g. the Hydro Qu´ebec incident in 1989). However, less is known about the impact of
lower-level geomagnetically induced currents (GICs) on the health of transformers in the long term. In this study, dissolved gas data from UK power
station transformers were analysed in detail in a space weather context for
the first time. Dissolved gas measurements from 2010–2015 were used to
look for evidence of a link between degradation of the transformer insulation and heightened levels of SYM-H and dB-dt as measured at Eskdalemuir
and Hartland magnetometer stations. Firstly, case studies were examined of
the most significant storms in this time period using dissolved gas analysis
(DGA) methods, specifically the Low Energy Degradation Triangle (LEDT).
The case studies were then augmented with a statistical survey, including
Superposed Epoch Analysis (SEA) of multiple storm events. No evidence
of a strong space weather impact can be found during this time period,
likely due to the relatively quiet nature of the Sun during this epoch and
the modernity of the transformers studied.