Faults analysis and treatment for vibration in stator housing of nuclear power turbo-generator
The vibration mechanism and characteristics of stator housing in nuclear power turbo-generators under different excitation forces are investigated,and an analysis and treatment method for the stator housing vibration fault is proposed.Moreover,analysis and verification is conducted by using three nuclear power turbo-generator units as examples.The results show that,the main cause of excessive stator housing vibration is the structure resonance resulting from the natural frequency of the stator housing being close to the rotating frequency or its double.The structure resonance caused by rotor excitation force can be controlled in two ways:by reducing the excitation force through field dynamic balance,or by adjusting the natural frequency of the stator housing through adjustment of the stator bottom bracing load distribution.Performing on-site dynamic balancing can effectively reduce the rotor excitation force.Adjusting the natural frequency of the stator housing can be realized through load distribution adjustment of the stator feet.However,due to the limited adjustment range of the magnetic pulling force,it is necessary to control the structure resonance caused by magnetic pulling force by adjusting the natural frequency of the stator housing.To prevent structure resonance of the stator housing,it is important to adjust the stator bottom bracing load distribution during installation or maintenance of the turbo-generators to keep the natural frequency of the stator housing away from the rotating frequency and electromagnetic force frequency.
nuclear power turbo-generatorstator housing vibrationstructure resonancefield dynamic balanceadjustment of stator bottom bracing load
万方数据
维普
