Numerical simulation on the HTSC electrodynamic levitation force for the safe operation of levitated vehicles

In this paper, the numerical simulation on the high-T(c) superconducting (HTSC) electrodynamic levitation force was implemented for the safe operation of levitated vehicles. The eddy current induced in the ground conductor by moving high field on board superconducting magnet forms the inductive levitation system. As a preliminary study on the HTSC levitation magnet to develop high-speed maglev in Korea, instead of moving the magnet, in this paper, AC current was applied to the fixed superconducting magnet. The HTSC levitation tester, which models after electrodynamic suspension (EDS) maglev, consists of one HTSC magnet, a reaction plate, and force measuring components. HTSC magnet was composed of series connected pancake coils wound with Bi-2223 wire. AC current was applied into the HTSC magnet with various frequencies and the levitation force was calculated and measured. According to the increase of the vehicle speed, the levitation force was saturated.