SHIELDED PULSE SUPERCONDUCTIVE MAGNET ENERGY STORAGE.

[In Japanese. / En japonais.]

Type of article: Article

Summary

THE PRINCIPLE AND A MODEL COIL OF THE SHIELDED PULSE SUPERCONDUCTIVE MAGNET ENERGY STORAGE ARE DESCRIBED. THIS METHOD WITH THE SHIELD COIL HAS TWO COILS, A SUPERCONDUCTIVE COIL AND A CONVENTIONAL NORMAL CONDUCTOR COIL, CONNECTED IN PARALLEL ELECTRICALLY AND COUPLED MAGNETICALLY. THE PULSE CURRENT WITH THE ENERGY TRANSFER FLOWS ONLY INTO THE SHIELD COIL. THE STORED ENERGY OF THE MODEL COIL IS 200 KJ AT THE CURRENT OF 1,350 A. THE AVAILABLE ENERGY IS DESIGNED TO BE 50 KJ AND THE MAXIMUM TRANSFER TIME IS 0. 1 SEC. THE SHIELD COIL IS DIVIDED INTO 12 BLOCKS. THE FIELD MEASUREMENT SHOWS THAT THIS CONSTRUCTION IS FAVOURABLE. THE WALL OF THE CRYOSTAT IS MADE AS THIN AS POSSIBLE AND THE CRYOSTAT HAS A GOOD THERMAL INSULATION PROPERTY.

Details

Original title: [In Japanese. / En japonais.]
Record ID : 1983-0033
Languages: Japanese
Publication date: 1982
Source: Source: Cryog. Eng.
vol. 17; n. 1; 23-30; 10 fig.; 1 tabl.; 7 ref.
Document available for consultation in the library of the IIR headquarters only.

Indexing

Themes: Superconduction
Keywords: Superconduction; Superconducting magnet; Cryostat; Thermal energy storage