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Efficient Modeling of High-Temperature Superconductors Surrounded by Magnetic Components Using a Reduced H–$\phi$ Formulation

A. Larry Arsenault, Frédéric Sirois, Francesco Grilli

2021IEEE Transactions on Applied Superconductivity34 citationsDOI

Abstract

Although the H-formulation has proven to be one of the most versatile formulations used to accurately model superconductors in the finite element method, the use of vector-dependent variables in nonconducting regions leads to unnecessarily long computation times. Additionally, in some applications of interest, the combination of multiple magnetic components interacting with superconducting bulks and/or tapes leads to large domains of simulation. In this article, we separate the magnetic field into a source and reaction field and use the H-Φ formulation to efficiently simulate a superconductor surrounded by magnetic bodies. We model a superconducting cube between a pair of Helmholtz coils and a permanent magnet levitating above a superconducting pellet. In both cases, we find excellent agreement with the H-formulation while the computation times are reduced by factors of nearly three and four in 2-D and 3-D, respectively. Finally, we show that the H-Φ formulation is more accurate and efficient than the H-A formulation in 2-D.

Topics & Concepts

SuperconductivityLevitationMagnetComputationMagnetic fieldSuperconducting magnetCondensed matter physicsPhysicsHigh-temperature superconductivityFinite element methodSuperconducting magnetic energy storageMaterials scienceComputer scienceThermodynamicsAlgorithmQuantum mechanicsPhysics of Superconductivity and MagnetismSuperconducting Materials and ApplicationsMagnetic confinement fusion research
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