西南石油大学学报(自然科学版) ›› 2021, Vol. 43 ›› Issue (6): 183-190.DOI: 10.11885/j.issn.1674-5086.2020.10.29.02

• 力学专刊 • 上一篇    下一篇

风力发电机定子振动测试及响应分析

李源, 曹国豪, 马武福, 梁臣, 胡鑫   

  1. 东方电气风电有限公司, 四川 德阳 618000
  • 收稿日期:2020-10-29 发布日期:2022-01-08
  • 通讯作者: 曹国豪,E-mail:caoguohao@126.com
  • 作者简介:李源,1982年生,男,汉族,山东沂水人,高级工程师,硕士,主要从事结构刚强度、疲劳、振动特性等方面的研究工作。E-mail:ly830129@163.com;曹国豪,1995年生,男,汉族,山西运城人,硕士,主要从事风力发电机组的振动和强度等方面的研究。E-mail:caoguohao@126.com;马武福,1970年生,男,汉族,贵州开阳人,高级工程师,主要从事风力发电机强度等方面的研究。E-mail:mawf7994@dongfang.com;梁臣,1982年生,男,汉族,安徽宿州人,高级工程师,硕士,主要从事风电设计等方面的研究工作。E-mail:liangchen@dongfang.com;胡鑫,1993年生,男,汉族,四川南充人,助理工程师,硕士,主要从事风力发电机工程应用等方面的研究。E-mail:huxin@dongfang.com

The Vibration Test and Response Analysis of Wind Power Generation Stator

LI Yuan, CAO Guohao, MA Wufu, LIANG Chen, HU Xin   

  1. Dongfang Electric Wind Power Co. Ltd., Deyang, Sichuan 618000, China
  • Received:2020-10-29 Published:2022-01-08

摘要: 为了解决大型风力发电机组的振动和噪声问题,以某直驱型风力发电机为研究对象,使用加速度传感器对发电机定子在运行状态下的轴向加速度进行了测试。随后利用有限元软件建立等效模型,进行模态分析和响应分析,得到发电机定子的固有频率、振型和共振频率值,并将有限元仿真结果与测试结果进行分析。实测结果表明,在运行过程中,发电机定子在6点钟方向的轴向加速度远大于9点钟方向的轴向加速度,并且轴向加速度在发电机转速为9.5 r/min时达到峰值,模拟结果表明,发电机定子的响应频率为23 Hz,该频率为电机轴向加速度最大值相对应基频的3倍,并且在该频率下,发电机定子6点钟和9点钟方向的位移比值与实测加速度比值接近。该研究可为风力发电机的实际运行、振动测试和仿真模拟提供参考。

关键词: 风力发电机, 定子振动测试, 模态分析, 有限元仿真, 响应分析

Abstract: In order to solve the vibration and noise problems of large-scale wind power generator, this paper takes a certain type of direct-drive wind power generator as the research subject. The axial acceleration of the wind power generator stator is tested by acceleration sensor when the generator is running, effective model of the wind power generator stator is established using finite element software. The natural frequency, mode shape and resonance frequency of the wind power generator stator can be obtained by modal analysis and response analysis, and the finite element simulation results and test results are analyzed. The measured results show that the axial acceleration of the wind power generator stator at 6 o'clock position is much greater than the axial acceleration at 9 o'clock position, and the axial acceleration reaches its maximum when the wind power generator rotates at 9.5 r/min. The simulation results show that the resonant frequency of the wind power generator stator is 23 Hz, which is three times the rotational frequency corresponding to the maximum axial acceleration. Under this frequency, the displacement ratio of the wind power generator stator at 6 o'clock position and 9 o'clock position is close to the measured acceleration ratio. The research can provide references for the actual operation, vibration test and simulation of wind turbines.

Key words: wind power generator, stator vibration test, modal analysis, finite element simulation, response analysis

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