Keywords
permissible magnetic field
magnetic shield
electromagnetic shield
composite material
effective characteristics подземные кабельные линии
допустимый уровень магнитного поля
магнитный экран
электромагнитный экран
композиционный материал
эффективные характеристики
How to Cite
Abstract
The magnetic field of underground double-circuit 330 kV cable line with cross-linked polyethylene insulation is computed. The ways to reduce the field level due to the optimal sequence of cable phases in the cable line, the use of thin and volume magnetic shields made of composite material, as well as the use of thin electromagnetic shield are considered. As shown, with optimal cable phasing in the cable line under study it is possible to reduce 3.3 times the field level on the ground. The efficiency of the magnetic and electromagnetic shields depending on their location and the effective magnetic and electrical characteristics is analyzed. References 10, figures 8.
References
Electric installation code. Minpalyvenerho Ukrainy, 2010. 776 p. (Ukr)
Greshniakov G.V., Doronin M.V., Korovkin N.V. Combined magnetic shields for cable power lines. Kabeli i provoda. 2015. No 5. Pp. 8–13. (Rus)
Rozov V.Yu., Dobrodeyev P.N., Kvytsynskyi A.A. Double-circuit passive shielding of the magnetic field of high-voltage cable lines in junction zones. Tekhnichna Elektrodynamika. 2017. No 1. Pp. 23–28. (Rus) DOI: https://doi.org/10.15407/techned2017.01.023
Rozov V.Yu., Reutskiy S.Yu., Pelevin D.E., Piliugina O.Yu. The magnetic field of power transmission lines and the methods of its reduction to a safe level. Tekhnichna Elektrodynamika. 2013. No 2. Pp. 3–9. (Rus)
D’Amore M., Menghi E., Sarto M.S. Shielding techniques of the low-frequency magnetic field from cable power lines. IEEE Internat. Symposium on Electromagnetic Compatibility, 18–22 Aug., 2003, Istanbul. 2003. Vol. 1. Pp. 203–208.
Lyach V.V., Molchanov V.M., Santatskii V.G., Kvitsinskii A.A. 330 kV cable line: some aspects of design-ing. Promelektro. 2009. No 6. Pp. 27–33. (Rus)
Lyach V.V., Molchanov V.M., Sudakov I.V., Pavlichenko V.P. 330 kV cable line is a new step in develop-ment of Ukrainian power networks. Elektricheskie seti i sistemy. 2009. No 3. Pp. 16–21. (Rus)
Shidlovskii A.K., Shcherba A.A., Zolotarev V.M., Podoltsev A.D., Kucheriava I.M. Extra-high voltage ca-bles with polymer insulation. Kyiv: Institute of Electrodynamics of National Academy of Sciences of Ukraine, 2013. 550 p. (Rus)
Comsol multiphysics modeling and simulation software. URL: http://www.comsol.com/ (accessed 15.11.2018)
Podoltsev A.D., Kucheriava I.M. Multiscale modeling in electrical engineering. Kyiv: Institute of Electro-dynamics, Ukrainian Academy of Sciences, 2011. 255 p. (Rus)
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