DocumentCode
3244947
Title
Cryogenic liquids-a prospective insulation basis for future power equipment
Author
Gerhold, J.
Author_Institution
Tech. Univ. Graz, Austria
fYear
1999
fDate
1999
Firstpage
365
Lastpage
371
Abstract
Cryogenic liquids are claimed to have a noteworthy impact on the concept of improved future power equipment. The low boiling temperature of liquid helium or liquid nitrogen offers the use of superconducting materials which eliminate ohmic losses in the conductors on the one hand. This yields a high overall current density in the equipment. On the other hand, the liquids seem to be interesting basic insulators with reasonable dielectric performance. The liquids are chemically inert, and no irreversible compound within the insulation system must be anticipated. Hazards such as fire risk in case of faults can be ruled out. Thermal aging of the insulation system can also be disregarded because no excess temperature must be taken into account during service, even in case of temporary overload operation. Dielectric aging due to partial discharges may be of little concern because the liquids can be easily fully reprocessed by vaporizing and recondensing in a closed cooling circuit; no memory effects then can degrade the liquid. Finally, the liquids are produced from gases which are found in open atmosphere. Thus, the disposal of insulation systems at the end of operational life is straightforward
Keywords
ageing; dielectric liquids; insulating materials; liquid helium-4; low-temperature techniques; nitrogen; power cable insulation; superconducting cables; He; N2; cryogenic liquids; dielectric performance; disposal; high overall current density; insulation; liquid helium; liquid nitrogen; low boiling temperature; memory effects; ohmic losses; partial discharges; power equipment; recondensing; superconducting materials; temporary overload operation; thermal aging; vaporizing; Aging; Conducting materials; Cryogenics; Current density; Dielectric liquids; Dielectrics and electrical insulation; Helium; Nitrogen; Superconducting materials; Temperature;
fLanguage
English
Publisher
ieee
Conference_Titel
Dielectric Liquids, 1999. (ICDL '99) Proceedings of the 1999 IEEE 13th International Conference on
Conference_Location
Nara
Print_ISBN
0-7803-4759-5
Type
conf
DOI
10.1109/ICDL.1999.798950
Filename
798950
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