Computational Technique for Analysis of Superconductive Fault Current Limiters With Saturated Core

Anton Belov,V P Belyakov,T F Belyakova,V G Bondarenko,A A Firsov, A Hon,M Kaparkova, Nadezhda Y Krylova,V P Kukhtin,E A Lamzin,M M Larionov,A V Pugachev,Igor Rodin,N Shatil, S Sychevskiy,V N Vasiliev,E Zapretilina

Applied Superconductivity, IEEE Transactions（2014）

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摘要

A computational technique is proposed for the analysis and design optimization of inductive-type superconducting fault current limiters (SFCL) with variable impedance for power systems application. The technique is applicable for a wide range of magnet systems. The paper is focused on the analysis of electromagnetic transients. A methodological example of a model SFCL is presented. Numerical experiments are described to study nonlinear effects at saturated and unsaturated states. Results demonstrate that the nonlinear magnetic behavior of the SFCL components affects noticeably the accuracy of predictions.

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关键词

optimisation,superconducting fault current limiters,computational technique,design optimization,electromagnetic transient analysis,inductive-type superconducting fault current limiters,magnet systems,nonlinear effects,nonlinear magnetic behavior,power system application,saturated core,superconducting fault current limiter components,superconductive fault current limiter analysis,unsaturated state,variable impedance,electromagnetic analysis,superconducting fault current limiter (sfcl),superconducting magnets,high temperature superconductors,impedance,limiting

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