The principle of flywheel battery is storing the surplus electricity by motoring the flywheel rotor,then retrieving the kinetic energy by decreasing the speed of flywheel rotor when electricity is required.
其工作原理是将多余的电能转变为高速旋转的飞轮转子的动能存储下来;在需要电能的时候,再将飞轮转子的动能转变为电能释放出来。
参考来源 - 飞轮电池及其混合磁悬浮控制系统的研究The flywheel rotor affects electromagnetic field parameters because rotor axes station changes, and the electromagnetic field parameters changing affects the sport and vibration shape of rotor.
飞轮转子由于振动引起轴心位置的变化,影响着电磁场参数,而电磁场参数的变化又影响转子的运动与振动形态,两者交互作用。
参考来源 - 飞轮储能系统机电耦合非线性动力学研究·2,447,543篇论文数据,部分数据来源于NoteExpress
At high rotational speeds, the gyroscopic effect of flywheel rotor is the major factor that influences rotor stability.
磁悬浮飞轮转子在高转速下表现出的陀螺效应是影响系统稳定性的主要因素。
It shows that the controller can solve the instability problem of flywheel rotor and restrain the damage of the system that noise cause.
研究表明,该控制器解决了陀螺效应导致的主动磁轴承-飞轮转子的不稳定性问题,且抑制了噪声对磁轴承稳定性所造成的破坏。
Permanent magnetic bearing and the hydrodynamics spiral groove bearing are utilized as supports for the energy storage flywheel rotor system.
对永磁-机械动压轴承混合支承式飞轮储能系统的转子动力学问题进行研究。
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