为了提高真空管道高温超导磁浮列车的运行效率,减少能量损耗,本文采用将动能转化为振能机械能再转化为电能的方式回收车体的制动能量.在高温超导磁浮系统的永磁轨上按一定规律排列永磁体得到不均衡分布的磁场,在磁浮车底布置绕圈,当车体振动时线圈感应电动势向储能电容充电.仿真结果表明该方法的合理性与有效性,可以作为高温超导高速运行系统设计时的参考. In order to improve the operating efficiency and reduce the energy loss of the high-temperature superconducting maglev train in vacuum pipeline, this paper adopts the method of converting kinetic energy into mechanical energy of vibration and then into electrical energy to recover the braking energy of the vehicle body.In the permanent magnetic track The permanent magnets are arranged according to a certain rule to obtain an unevenly distributed magnetic field, a coil is arranged at the bottom of the maglev, and the induced electromotive force of the coil charges the storage capacitor when the body vibrates. The simulation results show that the method is reasonable and effective, Reference Design of High Temperature Superconducting High Speed ​​Operation System.