Coupling time constants of striated and copper-plated coated conductors and the potential of striation to reduce shielding-current-induced fields in pancake coils

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  • 雨宮, 尚之
    Department of Electrical Engineering, Graduate School of Engineering, Kyoto University
  • 富永, 直樹
    Department of Electrical Engineering, Graduate School of Engineering, Kyoto University
  • 豊本, 竜希
    Department of Electrical Engineering, Graduate School of Engineering, Kyoto University
  • 西本, 拓馬/ 曽我部, 友輔
    Department of Electrical Engineering, Graduate School of Engineering, Kyoto University
  • Sogabe, Yusuke
    Department of Electrical Engineering, Graduate School of Engineering, Kyoto University
  • Yamano, Satoshi
    HTS Engineering Department, Furukawa Electric Co., Ltd.・SuperPower Inc.
  • Sakamoto, Hisaki
    HTS Engineering Department, Furukawa Electric Co., Ltd.

抄録

The shielding-current-induced field is a serious concern for the applications of coated conductors to magnets. The striation of the coated conductor is one of the countermeasures, but it is effective only after the decay of the coupling current, which is characterised with the coupling time constant. In a non-twisted striated coated conductor, the coupling time constant is determined primarily by its length and the transverse resistance between superconductor filaments, because the coupling current could flow along its entire length. We measured and numerically calculated the frequency dependences of magnetisation losses in striated and copper-plated coated conductors with various lengths and their stacks at 77 K and determined their coupling time constants. Stacked conductors simulate the turns of a conductor wound into a pancake coil. Coupling time constants are proportional to the square of the conductor length. Stacking striated coated conductors increases the coupling time constants because the coupling currents in stacked conductors are coupled to one another magnetically to increase the mutual inductances for the coupling current paths. We carried out the numerical electromagnetic field analysis of conductors wound into pancake coils and determined their coupling time constants. They can be explained by the length dependence and mutual coupling effect observed in stacked straight conductors. Even in pancake coils with practical numbers of turns, i.e. conductor lengths, the striation is effective to reduce the shielding-current-induced fields for some dc applications.

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