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基于增量谐波平衡法的覆冰输电线舞动分析 被引量:13

Galloping analysis of iced transmission lines based on incremental harmonic balance method
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摘要 覆冰输电线的舞动是一种非线性振动。应用增量谐波平衡法推导了覆冰输电线的有限元分析模型及运动平衡方程,并对舞动方程进行了求解。该方程具有非线性平方及立方刚度项、平方及立方粘滞阻尼项。把振动过程分解成为瞬态的持续增量振动过程,迭代求出舞动频率及振幅,求得方程解的表达式。结合实例分析了输电线舞动的极限环现象和谐波项数的取值问题,与时程积分方法分析结果比较表明吻合较好。对风速增量进行了参数分析推导,算例表明不同风速下覆冰输电线舞动频率与振幅是不同的,在某个临界风速处会发生舞动分岔。 The galloping of iced transmission lines is a kind of strongly nonlinear vibration.The incremental harmonic balance method is employed to establish the finite element model and balanced equations of iced conductor vibration.Then,vibration balanced equations were solved,which include the square and cubic stiffness items,square and cubic viscous damping items.Wave frequency and amplitude are obtained,and then the analytical expressions of equations are solved by iteration of a transient incremental continuous vibration process,which is decomposited from the vibration process.Taking an example,the limit cycle phenomena of galloping of the iced power line and the harmonic wave number are discussed.The results show that there is good agreement with time history methods.The parameters analysis equation of the wind increments are derived,which show that iced transmission line has different galloping frequency and amplitude on different wind speeds,that galloping bifurcation occurs on a critical velocity.
作者 晏致涛 张海峰 李正良
机构地区 重庆大学土木工程学院 重庆大学山地城镇建设与新技术教育部重点实验室 云南省电力设计院
出处 《振动工程学报》 EI CSCD 北大核心 2012年第2期161-166,共6页 Journal of Vibration Engineering
基金 国家自然科学基金资助项目(51178489)
关键词 输电线 增量谐波平衡法 舞动 非线性振动 覆冰 transmission line incremental harmonic balance method galloping nonlinear vibration iced
分类号 TU311.3 [建筑科学—结构工程] TM753 [电气工程—电力系统及自动化]
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参考文献11

  • 1Wang Jianwei,Lilien Jean-Louis.Overhead electricaltransmission line galloping-a full multi-span 3-DOFmodel,some applications and design recommendations[J].IEEE Transactions on Power Delivery,1998,13(3):909-916.
  • 2Luongo A,Piccardo G.Linear instability mechanismsfor coupled translational galloping[J].Journal ofSound and Vibration,2005,288(4-5):1 027-1 047.
  • 3Desai Y M,Yu P,Popplewell N,et al.Finiteelement modeling of transmission line galloping[J].Computers and Structures,1995,57(3):407-420.
  • 4Luongo Angelo,Zulli Daniele,Piccardo Giuseppe.Analytical and numerical approaches to nonlineargalloping of internally resonant suspended cables[J].Journal of Sound and Vibration,2008,(315):375-393.
  • 5Luongo Angelo,Zulli Daniele,Piccardo Giuseppe.Onthe effect of twist angle on nonlinear galloping ofsuspended cables[J].Computers and Structures,2009,87(15-16):1-12.
  • 6Vio G A Dimitriadis,Cooper G J E.Bifurcationanalysis and limit cycle oscillation amplitude predictionmethods applied to the aeroelastic galloping problem[J].Journal of Fluids and Structures,2007,23(7):983-1 011.
  • 7Lau S L,Cheung Y K.Amplitude incrementalvariational principle for nonlinear vibration of elasticsystem[J].ASME Journal of Applied Mechanics,1981,48(4):959-964.
  • 8高阳,王三民,刘晓宁.一种改进的增量谐波平衡法及其在非线性振动中的应用[J].机械科学与技术,2005,24(6):663-665. 被引量:5
  • 9蔡铭,刘济科,李军.多自由度强非线性颤振分析的增量谐波平衡法[J].应用数学和力学,2006,27(7):833-838. 被引量:19
  • 10蔡铭,刘济科,杨怡.强非线性颤振分析的增量谐波平衡法[J].机械科学与技术,2004,23(6):742-744. 被引量:5

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振动工程学报
2012年 第2期

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