Evaluation of possible corrosion enhancement due to telluric currents: case study of the Bolivia–Brazil pipeline

Moraes, Joyrles Fernandes de; Paulino, Igo; Alves, L. R.; Denardini, Clezio Marcos

doi:10.5194/angeo-38-881-2020

Cited by 8 publications

(1 citation statement)

References 19 publications

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“…In the pipeline in northern Bavaria, the peak current values upon a moderate geomagnetic activity reached ~12 A, and the PSP variations were ~3 V during the magnetic storm main phase [14]. The largest PSP variations associated with geomagnetic fluctuations were observed in the Bolivia-Brazil gas pipeline buried 0.5 m under the ground at the ends of the pipeline [15].…”

Section: Possible Risks To Pipelines From Geomagnetic Variationsmentioning

confidence: 99%

Monitoring of Geomagnetic and Telluric Field Disturbances in the Russian Arctic

et al. 2022

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The influence of space factors on technological systems in the Arctic (power transmission lines, oil/gas pipelines) has become critically important. To examine in depth these effects, an archive of digital 1 min data from Soviet/Russian magnetic stations deployed along the Arctic coast was created, starting from 1983 to the present. All data from various sources were converted to daily files in standard IAGA-2002 format and supplemented with quick-look magnetograms. Some of these data are included already in the existing world magnetic field databases, but not all. Examples of disturbances known to excite intense geomagnetically induced currents in power transmission lines were presented: irregular Pi3 pulsations and magnetic perturbation events. The database was augmented with the global 3D model of the Earth’s conductivity structure. The given example showed how the combined usage of the geomagnetic field database and the conductivity model enables one to synthesize the geoelectric field response to geomagnetic variations, and to assess the distortions of the pipeline-soil potential. To determine regions most susceptible to geomagnetic hazard, a map with normalized telluric fields was created for a uniform sinusoidally varying magnetic disturbance. This map showed that the largest electrotelluric potentials and field are induced in regions with a high resistivity (e.g., Kola Peninsula and Ural Mountains). This database can be also a useful support for space missions in the magnetosphere. The database is publicly available on the anonymous FTP site.

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Section: Possible Risks To Pipelines From Geomagnetic Variationsmentioning

confidence: 99%