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Browse Journals & Magazines > Applied Superconductivity, IE ...> Volume:22 Issue:5

Conceptual Design of a 440 V/800 A Resistive-Type Superconducting Fault Current Limiter Based on High $T_{c}$ Coated Conductors

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4 Author(s)

Kar, S. ; Cryogenic Eng. Centre, Indian Inst. Technol. Kharagpur, Kharagpur, India ; Kulkarni, S. ; Sarangi, S.K. ; Rao, V.V.

A conceptual design of a high-T_c-based resistive-type superconducting fault current limiter (SFCL) using second-generation coated conductors (CCs) has been carried out in this paper for possible power applications in India. In the design aspect, noninductive SFCL coils made with stabilizer-free CCs have been used for analytical calculations. In electrothermal analysis, a short-circuit characterization has been simulated to get the maximum resistance and temperature achieved during fault limitation in a 440 V/800 A single-phase SFCL. Furthermore, the recovery under no load is studied, and recovery time is calculated.

Published in:
Applied Superconductivity, IEEE Transactions on (Volume:22 , Issue: 5 )

Date of Publication: Oct. 2012

Article#:: 5603405
ISSN :: 1051-8223
INSPEC Accession Number:: 13028007
Digital Object Identifier :: 10.1109/TASC.2012.2202115
Product Type:: Journals & Magazines

Date of Current Version :: 31 August 2012
Issue Date :: Oct. 2012
Sponsored by :: The IEEE Council on Superconductivity

Author(s)

Kar, S.
Cryogenic Eng. Centre, Indian Inst. Technol. Kharagpur, Kharagpur, India
Kulkarni, S. ; Sarangi, S.K. ; Rao, V.V.

INSPEC: CONTROLLED INDEXING

electric resistance

high-temperature superconductors

superconducting fault current limiters

INSPEC: NON CONTROLLED INDEXING

analytical calculations

conceptual design

current 800 A

electrothermal analysis

fault limitation

maximum resistance

noninductive superconducting fault current limiter coils

power applications

recovery time

resistive-type superconducting fault current limiter

second-generation coated conductors

short-circuit characterization

single-phase superconducting fault current limiter

stabilizer-free coated conductors

voltage 440 V

AUTHOR KEYWORDS

Coated conductors (CCs)

high $T_{c}$

recovery under no load

resistive type

second generation (2G)

superconducting fault current limiter (SFCL)

IEEE TERMS

Circuit faults

Coils

Conductors

Fault current limiters

Fault currents

High temperature superconductors

Resistance

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