POTENTIAL MEANS FOR MITIGATION OF MAGNETIC FIELD GENERATED BY UNDERGROUND POWER CABLES IN POLYETHYLENE PIPES MADE OF COMPOSITE MAGNETIC MATERIAL-Reference-Cited by-同舟云学术

POTENTIAL MEANS FOR MITIGATION OF MAGNETIC FIELD GENERATED BY UNDERGROUND POWER CABLES IN POLYETHYLENE PIPES MADE OF COMPOSITE MAGNETIC MATERIAL

Published:2023-04-24 Issue:3 Volume:2023 Page:3-12
ISSN:1607-7970
Container-title:Tekhnichna Elektrodynamika
language:
Short-container-title:Teh. elektrodin.

Author:

Kucheriava I.M.,

Abstract

The magnetic field of the medium- and high-voltage underground power cable line, laid in composite polyethylene pipes having magnetic properties, with the use of special loose-fill/fill-up soil of different dimensions (bulk) is studied by computer modeling. The pipes and additional soils around and near the cables are made of a composite material with effective magnetic properties and can act as a magnetic shield that reduces the level of the field on the ground. The effi-ciency of field shielding depending on the height and width of the composite loose-fill/fill-up soil is analyzed. The exis-tence of the optimal not large (in height) fill-up soil for the best mitigation of the magnetic field on the ground directly above the cables and the influence of the width of the loose-fill/fill-up soils on the shielding efficiency are revealed. The characteristic features of the magnetic field distribution and the field level depending on the availability or non-availability of composite loose-fill soil are presented. The advantages of (trefoil) cable arrangement in one pipe with additional composite loose-fill and fill-up soil are shown. References 30, figures 5.

Publisher

National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka) (Publications)

Subject

Electrical and Electronic Engineering,Energy Engineering and Power Technology

Reference30 articles.

1. 1. Shidlovskii A.K., Shcherba A.A., Zolotaryov V.M., Podoltsev A.D., Kucheriava I.M. Extra-high voltage ca-bles with polymer insulation. Kyiv: Institute of Electrodynamics of the National Academy of Sciences of Ukraine, 2013. 550 p. (Rus)

2. 2. Makarov E.F. Handbook on 0,4-35 kV and 110-1150 kV power networks. Ed. by I.T. Goryunov, A.A. Lyubimov. Vol. 3. Moskva: Papirus-Pro, 2004. 688 p. (Rus)

3. 3. XLPE-insulated power cables for voltage from 6 to 35 kV. Catalogue of Yuzhcable works PJSC. 132 p. URL: www.yuzhcable.com.ua (Rus) (accessed at 23.12.2022).

4. 4. 6-35 kV power cables with XLPE insulation. Odesa: Odessa cable plant Odeskabel. URL: https://odeskabel.com/ua/products/kabeli-silovye/kabeli-silovye-s-xlpe-izolyatsiej-6-35-kv.html (Rus) (accessed at 23.12.2022).

5. 5. Dmitriev M.V. Requirements to pipes for laying of power cable lines. Kabel-news. 2014. No 6. Pp. 22-26. (Rus)

Cited by 1 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. REGULATIONS OF THE FORMATION OF PROTECTIVE POTENTIAL OF UNDERGROUND STEEL PIPELINES UNDER CONDITIONS OF HETEROGENEOUS ENVIRONMENT;Tekhnichna Elektrodynamika;2024-04-01