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Generation of 100-year geomagnetically induced current scenarios

A series of 100‐year extreme geoelectric field and geomagnetically induced current (GIC) scenarios are explored by taking into account the key geophysical factors associated with the geomagnetic induction process. More specifically, we derive explicit geoelectric field temporal profiles as a functio...

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Bibliographic Details
Published in:Space Weather 2012-04, Vol.10 (4), p.n/a
Main Authors: Pulkkinen, A., Bernabeu, E., Eichner, J., Beggan, C., Thomson, A. W. P.
Format: Article
Language:English
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Summary:A series of 100‐year extreme geoelectric field and geomagnetically induced current (GIC) scenarios are explored by taking into account the key geophysical factors associated with the geomagnetic induction process. More specifically, we derive explicit geoelectric field temporal profiles as a function of ground conductivity structures and geomagnetic latitudes. We also demonstrate how the extreme geoelectric field scenarios can be mapped into GIC. Generated statistics indicate 20 V/km and 5 V/km 100‐year maximum 10‐s geoelectric field amplitudes at high‐latitude locations with poorly conducting and well‐conducting ground structures, respectively. We show that there is an indication that geoelectric field magnitudes may experience a dramatic drop across a boundary at about 40°–60° of geomagnetic latitude. We identify this as a threshold at about 50° of geomagnetic latitude. The sub‐threshold geoelectric field magnitudes are about an order of magnitude smaller than those at super‐threshold geomagnetic latitudes. Further analyses are required to confirm the existence and location of the possible latitude threshold. The computed extreme GIC scenarios can be used in further engineering analyses that are needed to quantify the geomagnetic storm impact on conductor systems such as high‐voltage power transmission systems. To facilitate further work on the topic, the digital data for generated geoelectric field scenarios are made publicly available. Key Points Extreme GICs are of major current interest Detailed scenarios are needed to assess the risk posed by extreme GIC This study provides a robust geophysical foundation for further engineering analyses
ISSN:1542-7390
1539-4964
1542-7390
DOI:10.1029/2011SW000750