Magnetization loss and transport current loss in ReBCO racetrack coils carrying stationary current in time-varying magnetic field at 4.2 K

电磁线圈 磁化 磁场 交流电 电磁铁 定子 超导电性 材料科学 磁铁 电流(流体) 核磁共振 机械 凝聚态物理 垂直的 电流密度 物理 电压 电气工程 工程类 几何学 量子力学 数学
作者
Jeroen ter Harmsel,S. Otten,M. Dhallé,Herman H.J. ten Kate
出处
期刊:Superconductor Science and Technology [IOP Publishing]
卷期号:36 (1): 015011-015011 被引量:20
标识
DOI:10.1088/1361-6668/aca83d
摘要

Abstract Re BCO racetrack coils may be used in high-dynamic superconducting linear motor systems, typically replacing either permanent- or electromagnets in the DC stator. Even so, in order to achieve a significant increase in force density, the superconductor needs to carry a high transport current while simultaneously experiencing the time-varying magnetic field from the copper mover coils. To aid with the design of such devices, a 2D numerical model has been developed that predicts the AC loss under motor-relevant conditions, i.e. under the combined influence of a stationary transport current and an alternating external magnetic field. The main aim of the experiments described in this paper is to validate this model with dedicated AC loss measurements. To this end, we constructed a set-up that simultaneously measures magnetization-, transport current- and overall AC loss. Two identical insulated sub-scale Re BCO racetrack coils were tested at 4.2 K while carrying a stationary transport current of up to 700 A in a sinusoidal, alternating magnetic field up to 1.5 T, applied perpendicular to the broad face of the windings. Just like with metallic superconductors, the transport current significantly increases the AC loss level and lowers the penetration field. The inductive, electric and calorimetric data were found to be consistent with each other, validating the experimental calibration methods involved. Furthermore, the numerical model accurately predicted all AC loss components in the coils without any fitting to the data and can thus reliably be used in the design of superconducting machines.
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