大型水电机组动平衡试验研究

PDF(796 KB)

振动与冲击 ›› 2021, Vol. 40 ›› Issue (11) : 124-127.

论文

大型水电机组动平衡试验研究

张海库1,2，陈启卷1，耿清华2,3，郑阳1，王卫玉1

作者信息 +

Dynamic balance tests of large hydropower unit

ZHANG Haiku1,2, CHEN Qijuan1, GENG Qinghua2,3, ZHENG Yang1, WANG Weiyu1

Author information +

文章历史 +

摘要

针对大型水电机组转子质量不平衡引起的振动问题，提出了一种基于动载荷平衡建立离心力方程的分析处理方法。该方法利用大量现场试验样本数据，采用回归分析法对传统经验试配重公式进行了修正，得到了精确的回归系数，确定试配重质量；加试配重块，通过试配重前后变转速试验测试结果对比，找出不同转速下振动相同的平衡点，建立离心力方程；通过对离心力方程的计算求解，得到总的动不平衡质量。以某水电机组为例，对提出方法的有效性进行试验验证。结果表明，与传统方法相比，该研究提出的方法能快速和有效处理动平衡问题。

Abstract

Aiming at the vibration problem caused by rotor mass unbalance of large hydropower unit, a method for analysis and processing based on dynamic load balance to establish centrifugal force equation was proposed.Firstly, a large number of field test sample data and the regression analysis method were used to modify the traditional empirical trial counterweight formula, obtain the accurate regression coefficient and determine the trial counterweight’s mass.Then, the trial counterweight was added on the rotor, the varying rotating speed measuring results before and after adding the trial counterweight were compared to find balance points of the same vibration under different rotating speeds, and establish the centrifugal force equation.Finally, the centrifugal force equation was solved to obtain the total dynamic unbalance mass.Taking a certain hydropower unit as an example, the effectiveness of the proposed method was verified with tests.The results showed that compared with the traditional method, the proposed method can deal with the dynamic balance problem quickly and effectively.

导出引用

张海库1,2，陈启卷1，耿清华2,3，郑阳1，王卫玉1. 大型水电机组动平衡试验研究[J]. 振动与冲击, 2021, 40(11): 124-127

ZHANG Haiku1,2, CHEN Qijuan1, GENG Qinghua2,3, ZHENG Yang1, WANG Weiyu1. Dynamic balance tests of large hydropower unit[J]. Journal of Vibration and Shock, 2021, 40(11): 124-127

参考文献

［1］陈晓明，牟建军.中小型水轮发电机组动平衡试验探讨［J］.中国农村水利水电，2007(11): 118-119.
CHEN Xiaoming，MOU Jianjun.Study on balance test of medium and small hydraulic turbines［J］.China Rural Water and Hydropower，2007(11): 118-119.
［2］张志新,张海库,张龙.基于现场动平衡试验水轮发电机组振动处理［J］.水科学与工程技术，2012（6）: 51-53.
ZHANG Zhixin, ZHANG Haiku, ZHANG Long.Vibration question solution for hydrogenerator based on dynamic balance test［J］.Water Sciences and Engineering Technology, 2012(6): 51-53.
［3］付元初，张晔，王泉龙，等.水轮发电机组安装技术规范:GB/T 8564—2003［S］.北京:国家质量监督检验检疫总局,2003．

［4］付元初，王启茂，李红春，等.水轮发电机组启动试验规程：DL/T 507—2014［S］.北京：国家能源局，2014． 
［5］陈慕雄,徐松.水轮发电机转子现场动平衡试验的实践［J］.人民珠江，2010，31(2)：35-36.
CHEN Muxiong, XU Song.Spot test of dynamic balance of water turbo-generator rotor［J］.Pearl River, 2010，31(2): 35-36.
［6］韩平利,黄树红,贺国强,等.基于实验的转子动平衡影响系数优劣评价与提取［J］.振动与冲击，2003,22(2)：81-84.
HAN Pingli,HUANG Shuhong,HE Guoqiang,et al.Experiment-based method to evaluate the quality of influential coefficient in rotor dynamic balancing［J］.Journal of Vibration and Shock，2003,22(2)：81-84.

［7］邓理博,程礼,李全通,等.转子动平衡影响系数法改进［J］.机械科学与技术,2007, 26(5)：631-634.

DENG Libo, CHENG Li, LI Quantong,et al.Ameliorating of influence coefficient method for rotor dynamic balance［J］.Mechanical Science and Technology for Aerospace Engineering, 2007, 26(5)：631-634.
［8］雷文平，韩捷，陈宏,等.进动分解及其在转子动平衡中的应用［J］.振动与冲击，2012,31(11)：133-136.
LEI Wenping,HAN Jie,CHEN Hong,et al.Precession decomposition and its application in rotor dynamic balancing［J］.Journal of Vibration and Shock，2012,31(11)：133-136.
［9］阎宗国，周凌九，何军兵,等.水轮发电机组转子动平衡试验［J］.水力发电学报，2012,31(2)：235-239.
YAN Zongguo,ZHOU Lingjiu, HE Junbing,et al.Rotor dynamic balance test for hydroelectric unit［J］.Journal of Hydroelectric Engineering，2012,31(2)：235-239.
［10］刘晓亭,李维藩.水力机组现场测试手册［M］.北京：中国水利水电出版社，1993.