ПАРАМЕТРЫ СВЕРХПРОВОДЯЩИХ МАГНИТНЫХ СИСТЕМ С УДЕРЖИВАЮЩИМИ ЭЛЕМЕНТАМИ ВНУТРИ ТОРОИДАЛЬНОГО ОБЪЕМА

Yu.M. Yasetskyi; I.L. Mazurenko; A.V. Pavliuk

No. 5 (2011), Theoretical Electrical Engineering and Electrophysics

No. 5 (2011)

Theoretical Electrical Engineering and Electrophysics

PARAMETERS OF SUPERCONDUCTING MAGNETIC SYSTEMS WITH SUPPORT ELEMENTS INSIDE OF TOROIDAL VOLUME

Published 2011-09-05

Yu.M. Yasetskyi⁺⁻
I.L. Mazurenko⁺⁻
A.V. Pavliuk⁺⁻

Yu.M. Yasetskyi

Institute of Elektrodynamics National Academy of Science of Ukraine, pr. Peremohy, 56, Kyiv-57, 03680, Ukraine

I.L. Mazurenko

Institute of Elektrodynamics National Academy of Science of Ukraine, pr. Peremohy, 56, Kyiv-57, 03680, Ukraine

A.V. Pavliuk

Institute of Elektrodynamics National Academy of Science of Ukraine, pr. Peremohy, 56, Kyiv-57, 03680, Ukraine

ARTICLE_5_PDF (Українська)

Keywords

superconducting magnetic energy storage
toroidal solenoid
mathematical model
support system сверхпроводящий индуктивный накопитель энергии
тороидальный соленоид
математическая модель
механическая удерживающая система

How to Cite

[1]

Васецкий, Ю., Мазуренко, И. and Павлюк, А. 2011. PARAMETERS OF SUPERCONDUCTING MAGNETIC SYSTEMS WITH SUPPORT ELEMENTS INSIDE OF TOROIDAL VOLUME. Tekhnichna Elektrodynamika. 5 (Sep. 2011), 036.

Abstract

On the basis of an idealized model of magnetic systems in form of a toroidal current sheet a parametric analysis of superconducting magnetic energy storage is carried out. The parametric analysis includes the investigation of storage size, the necessary volumes of superconducting bindings and mechanical support system. The systems with spokes placed inside each discrete simple circular and segmental shape magnet coils are examined. The spoke system can solve mo mechanical problems without resort to the more complicated and expensive "D"-shaped coil geometry, namely: eliminating bending moments in the support system and ensuring uniform mechanical stress in all the spokes and supporting structure. The lowest values of the radial dimensions of toroidal solenoids and the necessary volume of the superconducting material is achieved in systems with segmental shape coils and for the last parameter approaching to the theoretical limit, which occurs in systems with D-shaped coils. References 17, table 1, figures 7.

ARTICLE_5_PDF (Українська)

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