Internal Vibration Source Analysis of AMB-Rotor System in HTR-PM Primary Helium Circulator

Jinpeng Yu, Lei Zhao
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引用次数: 1

Abstract

The active magnetic bearing (AMB) in HTR-PM primary helium circulator (PHC) applies the inductive displacement transducer (IDT) to achieve the closed-loop feedback control. The magnetic anisotropy of the rotor material can be equivalent to structure defect of the rotor and affect the IDT measurement accuracy, leading to internal exciting vibration of the rotor. In this paper, the magnetic field analysis shows that the rotor magnetic anisotropy has effect on the sensor measurement and brings about the displacement measurement error. In the rotor-sensor experiment, the effect of rotor magnetic anisotropy on the IDT is obtained as a curve of magnetic error, which further explains that the rotor magnetic anisotropy will affect the dynamic measurement accuracy of the IDT. With the simulation result, it is observed that the displacement measurement error will lead to the internal exciting force of AMB-rotor system. The force will increase as the rotor speed increases, and bring about high-frequency vibration of the rotor.
HTR-PM一次氦循环器amb -转子系统内部振动源分析
HTR-PM主氦循环器(PHC)中的主动磁轴承(AMB)采用感应位移传感器(IDT)实现闭环反馈控制。转子材料的磁各向异性可等效为转子的结构缺陷,影响IDT测量精度,导致转子内部激振。本文通过磁场分析表明,转子磁各向异性对传感器的测量产生影响,并带来位移测量误差。在转子传感器实验中,得到了转子磁各向异性对IDT的影响作为磁误差曲线,进一步说明了转子磁各向异性会影响IDT的动态测量精度。仿真结果表明,位移测量误差会导致转子系统内部激励力的变化。该力将随着转子转速的增大而增大,并引起转子的高频振动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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