Arrangement of Phases of Double-circuit Three-phase Overhead Power Lines and Its Influence on Buried Parallel Equipment
Abstract
This paper deals with electromagnetic fieldsaround double-circuit three-phase overhead power lines and
their interference effects on the buried parallel equipment,
such as pipelines or cables. The paper provides both an
analysis of electric and magnetic fields around doublecircuit
power transmission lines and a
References
Šroubová, L., Hamar, R., Kropík, P. and Vorácek, L. “Steel Buried
Pipeline Influenced Power Overhead Line,” in: ELEKTRO 2012.
Žilina, University of Žilina, 2012, pp. 475 – 478, ISBN 978-1-
-1178-6
Šroubová, L., Hamar, R. and Kropík, P. “Heating of Metal
Covering of Buried Cable by Electromagnetic Effects of Power
Overhead Line,” in: XXXV Miedzynarodowa konferencja z podstaw
elektrotechniki i teorii obwodow. Gliwice, Politechnika Slaska,
, pp. 45 – 46, ISBN: 978-83-85490-34-0.
Šroubová, L., Hamar, R., Kropík, P. “The Influence of Overhead
Lines on Buried Cables,” in AMTEE ’11 Proceedings, University of
West Bohemia, Pilsen, 2011, pp. II-25 – II-26
Benešová, Z., Šroubová, L., Mühlbacher, J. “Reduction of electric
and magnetic field of double-circuit overhead lines,” in Komunalna
energetika – Power engineering, Maribor: Univerza v Mariboru,
pp. 1 – 7.
Benešová, Z., Šroubová, L. “Reduction Electric and Magnetic Field
of Double-Circuit Overhead Lines,” in AMTEE ’03 Proceedings,
University of West Bohemia, Pilsen, 2003, pp. B1-B6.
Bortels, L., Deconinck, J., Munteanu, C., Topa, V. “A General
Applicable Model for AC Predictive and Mitigation Techniques for
Pipeline Networks Influenced by HV Power Lines,” IEEE
Transactions on Power Delivery, Vol. 21, No. 1, January 2006,
pp. 210 – 217.
Christoforidis, G. C., Labridis, D. P., Dokopoulos, P. S. “A Hybrid
Method for Calculating the Inductive Interference Caused by
Faulted Power Lines to Nearby Buried Pipelines,” IEEE
Transactions on Power Delivery, Vol. 20, No. 2, April 2005,
pp. 1465 – 1473.
Christoforidis, G. C., Labridis, D. P., Dokopoulos, P. S. “Inductive
Interference on Pipelines Buried in Multilayer Soil Due to
Magnetic Fields From Nearby Faulted Power Lines,” IEEE
Transactions on Electromagnetic Compatibility, Vol. 47, No. 2,
May 2005, pp. 254 – 262.
Dawalibi, F. P., Southey, R. D., Vukonich, W. “Recent Advanced
in the Mitigation of AC Voltages Occurring in Pipelines Located
Close to Electric Transmission Lines,” IEEE Transactions on
Power Delivery, Vol. 9, No. 2, April 1994, pp. 1090 – 1097.
Kopsidas, K., Cotton, I. “Induced Voltages on Long Aerial and
Buried Pipelines Due to Transmission Line Transients,” IEEE
Transactions on Power Delivery, Vol. 23, No. 3, July 2008,
pp. 1535 – 1543.
COMSOL Multiphysics [online]. © 2015 [cite May. 30, 2015].
Available online: http://www.comsol.com
Agros2D [online]. © 2015 [cite May. 30, 2015]. Available online:
Mathworks [online]. © 2015 [cite May. 30, 2015]. Available
online: http://www.mathworks.com/
Governmental regulation 1/2008 Sb. on health protection against
non-ionizing radiation.
CSN EN 15280 (038369). Evaluation of a.c. corrosion likelihood of
buried pipelines – Application to cathodically protected pipelines.