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On fault-mode phenomenon in no-insulation superconducting magnets: A preventive approach

Fangliang Dong, Dong Keun Park, Wooseung Lee, Luning Hao, Zhen Huang, Juan Bascuñán, Zhijian Jin, Y. Iwasa

2022Applied Physics Letters19 citationsDOIOpen Access PDF

Abstract

Here, we present experimental and analytical results of a preventive approach applied to a fault-mode phenomenon caused by electrodes or power-source failure in a no-insulation (NI) high-temperature superconducting REBa2Cu3O7−x (REBCO, RE = rare earth) magnet. It is generally agreed that the NI magnets, at least those of laboratory scale, are self-protected from overheating and, therefore, from quenching, chiefly because of turn-to-turn current bypassing unique to NI. However, these NI magnets do experience unexpected quenches, e.g., when the current through the magnet suddenly drops due to the aforementioned fault-mode phenomenon. Here, we report this phenomenon of a sudden-discharging-triggered quench of an NI REBCO coil, conduction-cooled, and operated at 4.2 K. We also present our preventive approach for this phenomenon that relies on an appropriately designed resistor shunted across the coil terminals. With this shunt resistor, a quench was prevented by suppressing the quench initiating turn-to-turn heat and induced overcurrent within the NI winding, and the coil current decayed safely.

Topics & Concepts

MagnetOverheating (electricity)Electromagnetic coilMaterials scienceResistorSuperconducting magnetOvercurrentNuclear engineeringSuperconductivityVoltageCondensed matter physicsElectrical engineeringNuclear magnetic resonancePhysicsEngineeringPhysics of Superconductivity and MagnetismSuperconducting Materials and ApplicationsHVDC Systems and Fault Protection