基于Hilbert变换的汽轮发电机扭转动力参数辨识

2022 IEEE 4th International Conference on Power, Intelligent Computing and Systems (ICPICS) Pub Date : 2022-07-29 DOI:10.1109/ICPICS55264.2022.9873576

Fei Chen, Hao Cao, Chengjie Zheng, Xu Ma, Jianjun Hu

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引用次数: 0

摘要

提出了一种利用实测脉冲扭振信号识别汽轮发电机扭振动态参数的实验方法。采用五点三次平滑法对冲击响应信号进行去噪。利用希尔伯特变换提取响应信号的包络。扭转固有频率由瞬时相位信号计算得到。包络线在对数坐标下线性拟合。提取了扭阻尼比和冲击响应幅值。对600mw超临界汽轮发电机组三相短路故障时的扭冲响应进行了仿真。利用该方法提取了扭振参数。阻尼比和固有频率的识别精度高。它可以用来识别扭转参数。扭转响应幅值越大，识别精度越高。测点应布置在待识别模态的最大变形点附近。

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Identification of Torsional Dynamic Parameters of Turbine Generator based on Hilbert Transformation

An experimental method is proposed to identify torsional dynamic parameters from the measured impulse torsional response signals of turbine generator. Five-point cubic smoothing method is used to denoise the impact response signal. The envelope of the response signal is extracted by Hilbert transformation. The torsional natural frequency is calculated from the instantaneous phase signal. The envelope is fitted linearly in logarithmic coordinates. The torsional damping ratio and impact response amplitude are extracted. The torsional impulse response of a 600 MW supercritical turbine generator unit under three-phase short circuit fault is simulated. The torsional parameters are extracted by the method. The identification accuracy of damping ratio and natural frequency is high. It can be used to identify torsional parameters. The larger the amplitude of torsional response, the higher the identification accuracy. The measurement points should be arranged near the maximum deformation point of the modal to be identified.

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来源期刊

2022 IEEE 4th International Conference on Power, Intelligent Computing and Systems (ICPICS)

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