Planar magnetic field distribution underneath two-circuit linear configured power lines in various phase arrangements

Inductive coupling affects both aerial and underground metallic pipelines that run parallel to or in the vicinity of AC high voltage power lines, whereby voltage is induced in to the pipelines due to the time varying magnetic fields produced by the transmission line currents. We present computation...

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Bibliographic Details
Main Authors: Ponnle, A. A., Adedeji, K. B., Abe, B. T., Jimoh, A. A.
Format: Conference Proceeding
Language:English
Subjects:
Alternating current
Computation
Conductors
Double circuit
Geometry
High voltages
horizontal geometry
Magnetic field distribution
Magnetic fields
Magnetic flux density
phase sequence arrangement
Pipelines
Pipelining (computers)
polarization
Poles and towers
Power lines
power transmission line
Power transmission lines
vertical geometry
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Summary:Inductive coupling affects both aerial and underground metallic pipelines that run parallel to or in the vicinity of AC high voltage power lines, whereby voltage is induced in to the pipelines due to the time varying magnetic fields produced by the transmission line currents. We present computation of the planar magnetic field distribution on the ground below balanced AC double circuit power transmission lines of vertical and horizontal geometries for six different phase arrangements. The computations showed that the magnetic field distribution depends, among other factors, on the conductors' phase sequence arrangement. Some arrangements show symmetrical lateral profile while some exhibit asymmetrical lateral profile. The field is also polarized with different polarization shapes at different locations which depend on the phase arrangements as well as other factors. We concluded that in placing pipelines in the vicinity of AC double circuit HVTLs, it is essential to consider the field distribution by the phase arrangement of the line. If possible, pipelines should be placed in a region of minimum field intensity within the allowable servitude of the line, in order to have minimal induction on the pipeline from the HVTL in normal operating conditions.
ISSN:2153-0033
DOI:10.1109/AFRCON.2015.7331963