Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема
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 windings and mechan...
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| Опубліковано в: : | Технічна електродинаміка |
|---|---|
| Дата: | 2011 |
| Автори: | , , |
| Формат: | Стаття |
| Мова: | Російська |
| Опубліковано: |
Інститут електродинаміки НАН України
2011
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| Цитувати: | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема / Ю.М. Васецкий, И.Л. Мазуренко, А.В. Павлюк // Технічна електродинаміка. — 2011. — № 5. — С. 36-47. — Бібліогр.: 17 назв. — pос. |
Репозитарії
Digital Library of Periodicals of National Academy of Sciences of Ukraine| _version_ | 1859875489372438528 |
|---|---|
| author | Васецкий, Ю.М. Мазуренко, И.Л. Павлюк, А.В. |
| author_facet | Васецкий, Ю.М. Мазуренко, И.Л. Павлюк, А.В. |
| citation_txt | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема / Ю.М. Васецкий, И.Л. Мазуренко, А.В. Павлюк // Технічна електродинаміка. — 2011. — № 5. — С. 36-47. — Бібліогр.: 17 назв. — pос. |
| collection | DSpace DC |
| container_title | Технічна електродинаміка |
| description | 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 windings 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 two 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.
|
| first_indexed | 2025-12-07T15:51:14Z |
| format | Article |
| fulltext |
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1. ., ., ., ., . -
( ) -
// . . 2008. 3. – . 43–48.
2. . -
// . 2002.
4. . 40 44.
3. .
// . – 2005. – 2. – . 100–107.
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// . .: , 1987. . 3 20.
5. ( )
. „ ” / -
. – 0107U000070. – . 0208U006899. – .: , 2008. – 160 .
6. ., ., ., .
//
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ISSN 1607-7970. . . 2011. 5 47
Parameters of superconducting magnetic systems with support elements inside of toroidal volume.
Yu.M.Vasetskyi, I.L.Mazyrenko, A.V.Pavliuk
Institute of Electrodynamics National Academy of Science of Ukraine,
Peremogy pr., 56, Kyiv-57, 03680, Ukraine.
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 windings 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 two 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.
Key words: superconducting magnetic energy storage, toroidal solenoid, mathematical model, support system.
1. Avramenko V. ., Aristov Yu.V., Vasetskyi Yu.M., Mazurenko I.L., Chernenko P.O. Some fields of effective
use of superconducting magnetic energy storage (SMES) in power systems of Ukraine // Tekhnichna elektrodynamika.
2008. 3. P. 43 48. (Ukr)
2. Bozhko S.V. Application of superconducting magnetic energy storage for solving problems of improvements
of sustainability of power systems and electric power quality // Promelektro. 2002. 4. P. 40 44. (Rus)
3. Vasetskii Yu.M. The concept of toroidal magnetic energy storage with spokes inside of torus to compensate
for the electrodynamical forces in the coils // V dnovliuvana enerhetyka. 2005. 2. P. 100–107. (Rus)
4. Velikhov E.P., Glukhikh V.A. Pulse energy sources for research fusion devices and reactors / Fizika i
tekhnika impulsnykh sistem. Moskva: Energoatomizdat, 1987. P. 3 20. (Rus)
5. Application of superconducting magnetic energy storage (SMES) to increase reliability and manageability of
power transmission in electric power systems. Zvit po NDR “Integratsiia” / Instytut Elektrodynamiky Natsionalnoi Akademii
Nauk Ukrainy. 0107U000070. – Inv. 0208U006899. Kyiv: IED NAN Ukrainy, 2008. 160 p. (Ukr)
6. Larionov B.A., Spevakova F.M., Stolov A.M., Azizov E.A. The problems of accumulation and transformation
of electromagnetic energy in pulsed high-power systems with magnetic energy storage // Fizika i tekhnika moshchnykh
impulsnykh sistem. Moskva: Energoatomizdat, 1987. P. 66 104. (Rus)
7. Leites L.V. Toroidal reactor without core for power systems // Elektrichestvo. 1960. 11. C. 76 81. (Rus)
8. Svetlitskii V.A. The mechanics of the rods. Part I. Moskva:Vysshaia shkola, 1987. 320 p. (Rus)
9. Shafranov V.D. On optimal form of toroidal solenoids // Zhurnal tekhnicheskoi fisiki. 1972. T. XLII.
Vol. 9. P. 1785–1791. (Rus)
10. Yakimets I.V., Dmitrieva G.A. Superconducting magnetic energy storage as a means to control of active
power flows on the interconnections of EES // Elektrichestvo. 2003. 2. P. 6 16. (Rus)
11. Engineering problems of TOKAMAK / Sbornik statei pod redaktsiei V.A.Chuianova. Moskva: Energo-
atomizdat, 1985. 270 p.
12. Georgievskii A., Ostrow S., Vasetskii Yu., Rotachov Yu. Toroidal magnetic systems with tilted coils for
superconducting magnetic energy storage (SMES) // Tekhnichna elektrodynam ka. Tematychnyi vypusk “Problemy
suchasnoi elektrotekhniky.” 2004. 2. P. 3 6.
13. Eyssa Y.M., Boom R.W. Considerations of a Large Force Balanced Magnetic Energy Storage System //
IEEE Trans. on Magnetics. – 1981. – Vol. 17. – 1. – P. 460 462.
14. Hassenzahl W.V., Baker B.I., Keller W.E. The economics of superconducting magnetic energy storage systems
for load leveling: A comparison with other systems // Los Alamos National Laboratory. Rep. LA-5377-MS, Aug., 1973.
15. Thome R.J., Tarrh J.M. MHD and Fusion Magnets. Field and Force Design Concepts. New York, A Wiley-
Interscience publication, 1982. 316 p.
16. Schoenung S.M., Meier W.R., Hassenzahl W.V. A Comparison of Large-scale Toroidal and Solenoidal
SMES System // IEEE Trans. on Magnetics. – 1991. – Vol. 27. – 2. – P. 2324 2328.
17. ITER Physics Basis // Nuclear Fusion. 1999. Vol. 39. 12.
31.03.2011
Received 31.03.2011
|
| id | nasplib_isofts_kiev_ua-123456789-62007 |
| institution | Digital Library of Periodicals of National Academy of Sciences of Ukraine |
| issn | 0204-3599 |
| language | Russian |
| last_indexed | 2025-12-07T15:51:14Z |
| publishDate | 2011 |
| publisher | Інститут електродинаміки НАН України |
| record_format | dspace |
| spelling | Васецкий, Ю.М. Мазуренко, И.Л. Павлюк, А.В. 2014-05-15T11:05:07Z 2014-05-15T11:05:07Z 2011 Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема / Ю.М. Васецкий, И.Л. Мазуренко, А.В. Павлюк // Технічна електродинаміка. — 2011. — № 5. — С. 36-47. — Бібліогр.: 17 назв. — pос. 0204-3599 https://nasplib.isofts.kiev.ua/handle/123456789/62007 621.355 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 windings 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 two 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. ru Інститут електродинаміки НАН України Технічна електродинаміка Теоретична електротехніка та електрофізика Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема Parameters of superconducting magnetic systems with support elements inside of toroidal volume Article published earlier |
| spellingShingle | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема Васецкий, Ю.М. Мазуренко, И.Л. Павлюк, А.В. Теоретична електротехніка та електрофізика |
| title | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема |
| title_alt | Parameters of superconducting magnetic systems with support elements inside of toroidal volume |
| title_full | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема |
| title_fullStr | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема |
| title_full_unstemmed | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема |
| title_short | Параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема |
| title_sort | параметры сверхпроводящих магнитных систем с удерживающими элементами внутри тороидального объема |
| topic | Теоретична електротехніка та електрофізика |
| topic_facet | Теоретична електротехніка та електрофізика |
| url | https://nasplib.isofts.kiev.ua/handle/123456789/62007 |
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