P. Fernberg scite author profile

P. Fernberg

4Publications

84Citation Statements Received

29Citation Statements Given

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Affiliations

Natural Resources Canada, Carleton University

Publications

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Modelling the disturbance caused by a dc-electrified railway to geomagnetic measurements

et al. 2007

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Magnetic fields created by a dc-electrified railway are a nuisance to the operation of a geomagnetic observatory and also disturb other electromagnetic studies. Theoretical formulas that enable quantitative estimates of the magnetic effect of a dc railway including leakage currents in the ground are presented in this paper. They are illustrated by numerical examples. The validity of the theoretical model was verified by measurements carried out in the vicinity of a nearly north-south railway in Calgary, Canada. The earth structure in that area is approximately layered, which is an assumption included in the theoretical model. The agreement between the measured magnetic fields due to trains and the theoretical values is good. Numerical computations indicate that magnetic fields larger than the maximum allowable noise level (assumed to be about 10 pT) at today's magnetic observatories may extend to distances of tens of kilometres from a railway. We have prepared computer programs based on the theoretical formulas in the MatLab, Octave, FORTRAN and IDL languages, in which the locations (i.e. the latitudes and the longitudes) of the point of observation, of the feeding substations and of the trains, together with the feeding and leakage currents and the heights of the feeding lines, can be given as inputs.

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Earth conductivity structures and their effects on geomagnetic induction in pipelines

et al. 2007

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Abstract.Anomalous, large pipe-to-soil potentials (PSP) have been observed along a natural gas pipeline in eastern Ontario, Canada, where there is a major geological contact between the highly resistive rocks of the Precambrian Shield to the west and the more conductive Paleozoic sediments to the east. This study tested the hypothesis that large variations of PSP are related to lateral changes of Earth conductivity under the pipeline. Concurrent and co-located PSP and magnetotelluric (MT) geophysical data were acquired in the study area. Results from the MT survey were used to model PSP variations based on distributed-source transmission line theory, using a spatially-variant surface geoelectric field. Different models were built to investigate the impact of different subsurface features. Good agreement between modelled and observed PSP was reached when impedance peaks related to major changes of subsurface geological conditions were included. The large PSP could therefore be attributed to the presence of resistive intrusive bodies in the upper crust and/or boundaries between tectonic terranes. This study demonstrated that combined PSP-MT investigations are a useful tool in the identification of potential hazards caused by geomagnetically induced currents in pipelines.

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One-dimensional layered Earth models of Canada for GIC applications, part 1: General description

Trichtchenko

Fernberg

Boteler

2019

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Geoelectric field modelling for canadian space weather services

Trichtchenko

Fernberg

Danskin

2016

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P. Fernberg

Modelling the disturbance caused by a dc-electrified railway to geomagnetic measurements

Earth conductivity structures and their effects on geomagnetic induction in pipelines

One-dimensional layered Earth models of Canada for GIC applications, part 1: General description

Geoelectric field modelling for canadian space weather services

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