Modeling GIC in the Southern South Island of Aotearoa New Zealand Using Magnetotelluric Data

Author:

Pratscher K. M.1ORCID,Ingham M.1ORCID,Mac Manus D. H.2ORCID,Kruglyakov M.2ORCID,Heise W.3ORCID,Rodger C. J.2ORCID,Divett T.1ORCID,Bertrand E.3ORCID,Dalzell M.4ORCID,Brundell J.2

Affiliation:

1. School of Chemical and Physical Sciences Victoria University of Wellington Wellington New Zealand

2. Department of Physics University of Otago Dunedin New Zealand

3. GNS Science Lower Hutt New Zealand

4. Transpower New Zealand Ltd Wellington New Zealand

Abstract

AbstractMagnetotelluric (MT) impedances from 62 sites in southern South Island of Aotearoa New Zealand have been used to model geomagnetically induced currents (GIC) in four transformers during two solar storms. Induced electric fields during the storms are calculated from the MT impedances using the magnetic fields measured at the Eyrewell (EYR) geomagnetic observatory, approximately 200 km north of the study area. Calculated GIC during the sudden storm commencements (SSC) give a generally good match to GIC measured by the network operator, Transpower New Zealand. Long period GIC (periods longer than about 10,000 s) are less well modeled. Calculations based on thin‐sheet modeling, which has restrictions on the shortest period of variation which can be modeled, perform less well for the GIC associated with SSC, but are equally good, if not better, at modeling longer period GIC. Consistent underestimation of large GIC at one transformer (HWBT4) near Dunedin are likely to be the result of uncertainty in the assumed values of line, transformer, and earthing resistances. The assumption of a spatially uniform magnetic field across the study area, which is implied by use of the magnetic field measured at EYR as a basis for calculation, may also lead to incorrect calculation of GIC. For one storm use of magnetic field data from a magnetometer within the study area leads to much improved modeling of the observed GIC. This study compares modeled and measured GIC using specifically measured MT impedance data.

Funder

Ministry of Business, Innovation and Employment

Publisher

American Geophysical Union (AGU)

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