Numerical modelings of superconducting wires for AC loss calculations

Superconducting properties of superconducting wires as well as the influence of their composite structure and twisting should be taken into account for their numerical modeling for AC loss calculations. Furthermore, complicated electromagnetic conditions in electrical apparatuses under which superco...

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Bibliographic Details
Published in:Physica. C, Superconductivity Superconductivity, 1998-12, Vol.310 (1), p.16-29
Main Authors: Amemiya, Naoyuki, Murasawa, Shun-ichi, Banno, Nobuya, Miyamoto, Kengo
Format: Article
Language:English
Subjects:
Applied sciences
Current distribution
Electrical engineering. Electrical power engineering
Exact sciences and technology
External AC magnetic field
Finite element method
Materials
Numerical modeling
Transport AC loss
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Summary:Superconducting properties of superconducting wires as well as the influence of their composite structure and twisting should be taken into account for their numerical modeling for AC loss calculations. Furthermore, complicated electromagnetic conditions in electrical apparatuses under which superconducting wires are used influence their AC loss properties; superconducting wires carry their transport current and are exposed to the external magnetic field whose direction and magnitude vary spatially. A series of numerical models of superconducting tapes based on the finite element method has been developed. In each model, some of the above-mentioned factors that could influence the AC loss properties are taken into account. The models are formulated with the current vector potential and the scalar magnetic potential ( T – Ω method). Superconducting property is given by the E– J characteristic represented by a power law. The current distributions in non-twisted and twisted superconducting tapes carrying their transport current and/or exposed to the external magnetic field are calculated with these models to estimate their AC loss. The current distribution in a short piece of superconducting tape exposed to AC magnetic field is also calculated.
ISSN:0921-4534
1873-2143
DOI:10.1016/S0921-4534(98)00427-4