[1]张翼,金波,郑涛.单桩式基础海上风电塔强振分析[J].华南地震,2020,40(04):133-139.[doi:10.13512/j.hndz.2020.04.018]
 ZHANG Yi,JIN Bo,ZHENG Tao.Strong Vibration Analysis of Single-pile Foundation Offshore Wind Power Tower[J].,2020,40(04):133-139.[doi:10.13512/j.hndz.2020.04.018]
点击复制

单桩式基础海上风电塔强振分析()
分享到:

华南地震[ISSN:1006-6977/CN:61-1281/TN]

卷:
40
期数:
2020年04期
页码:
133-139
栏目:
土木工程防震减灾
出版日期:
2020-12-30

文章信息/Info

Title:
Strong Vibration Analysis of Single-pile Foundation Offshore Wind Power Tower
文章编号:
1001-8662(2020)04-00133-07
作者:
张翼1金波2郑涛2
1.国家电力投资集团有限公司,北京 100029;2.中国电建集团华东勘测设计研究院有限公司,杭州 310000
Author(s):
ZHANG Yi1JIN Bo2ZHENG Tao2
1.State Power Investment Corporation Limited,Beijing 10029, China;2.Huadong Engineering Corporation Limited,Hangzhou 310000,China
关键词:
强振单桩式海上风电塔台风偏航强振
Keywords:
Vibration monitoringSingle-pile offshore wind power towersTyphoonStrong vibration of tower caused by yaw
分类号:
TM614
DOI:
10.13512/j.hndz.2020.04.018
文献标志码:
A
摘要:
对某座风电场的70座单桩式海上风电塔基础振动及其中7座的塔筒进行了1年的振动监测,统计了其在台风、偏航冲击等作用力下的强振特性。监测数据分析发现:机舱对风向偏航时会引起塔筒强烈振动,且此类型强振现象持续时间达几十秒,有时塔筒顶部的振动加速度达到14m/s2、基础振动加速度达到3.5m/s2;在台风作用下,塔筒的振动加速度值达到12.5m/s2、基础振动加速度值达到4.5m/s2;通过分析风电塔1年运营期间的塔筒固有频率值,发现前3阶固有频率值、阻尼比未发现变化。监测结果表明:单桩式风电塔在台风、机舱偏航时都会产生强烈振动。机舱偏航引起风电塔的强振现象过于频繁发生,可能会引起风电塔出现振动疲劳,应引起重视。研究成果可为此类型风电塔设计、运营安全监测及损伤诊断提供参考。
Abstract:
The paper conducts the vibration monitoring for the foundation vibration of 70 mono-pile offshore wind power towers and 7 of the towers on a wind farm for one year,and calculates their strong vibration characteristics under the action of typhoon, yaw impact,etc. Monitoring data analysis shows that:the yaw of the nacelle against the wind direction will cause strong tower vibration,and this type of strong vibration lasts for tens of seconds,sometimes the vibration acceleration at the top of the tower reaches 14 m/s2,and the basic vibration acceleration is close to 3.5 m/s2;under the action of the typhoon,the vibration acceleration value of the tower is close to 12.5 m/s2,and the vibration acceleration value of the foundation is close to 4.5 m/s2;by analyzing the natural frequency value of the tower tube during the one-year operation of the wind power tower,it is found that the natural frequency values and damping ratio of the first 3 orders have not changed.The monitoring results show that the single-pile wind power tower will generate strong vibration during typhoons and yaw impact. The strong vibration of the wind power tower caused by the nacelle yaw occurs too frequently,which may cause vibration fatigue of the wind power tower,which should be paid attention to. The research results of this paper can provide reference for the design,operation safety monitoring and damage diagnosis of this type of wind power tower.

参考文献/References:

[1]何先龙,佘天莉,徐兵等.基于塔筒振动特性识别风机塔螺栓松动的研究[J].振动与冲击,2016,35(14):112-118.
[2]王玉冰.基于原型观测的海上风电结构振源和横风向振动研究[D].天津:天津大学,2014.
[3]邓伟,金波,郑涛,等.高桩混凝土承台式海上风电塔强振动分析[J].地震工程与工程振动,2020,40(1):233-239.
[4]魏泰,吴坤,黄军威.风机塔筒螺栓防松检测技术[J].机械与电子,2013(8):78-80.
[5]Caselizep,Giebhardtj.RotorConditionMonitoringforImprovedOperationalSafetyofOffshoreWindEnergyConverters[J].JournalofSolarEnergyEngineering,2005,127(2):253-261.
[6]CaselitzP,GiebhardtJ,MevenkampM.On-linefaultdetectionandpredictioninwindenergyconverters[C]//InstitutfurSolareEnergieversorgungstechnik(ISET)e.V.Thessaloniki:EWEC,1994
[7]缑百勇,陆秋海,王波等.利用固有频率异常值分析法检测螺栓拧紧力[J].振动与冲击,2015,34(23):77-82.
[8]余坚,谢寿生,任立通,等.拉杆转子装配振动检测分形研究[J]振动与击,2014,33(14):84-88.
[9]李允公,孔祥娜,高玉勇.基于两被联件振动信号概率密度和PCA的螺栓松动识别方法研究[J].振动与冲击,2015,34(1):63-67.
[10]Loutas.T.H,Sotiriades.G,Kalaitzoglou.I,etal.Conditionmonitoringofasingle-stagegearboxwithartificiallyinducedgearcracksutilizingon-linevibrationandacousticemissionmeasureents[J].AppliedAcoustics,2009,70(9):1148-1159.
[11]李源,曾宇,陈昌林.不同单元类型风机塔筒振动特性比较研究[J].东方电机,2012(5):43-46.
[12]RACHIDY,ISMAILEB,TRITSCHJB,etal.Dynamicstudyofawindturbinebladewithhorizontalaxis[J].EuropeanJournalofMechanics-A/Solids,2001,20(2):216-225.
[13]MURTAGHPJ,BASUB,BRODERICKBM.Modeaccelerationapproachforrotatingwindturbineblades[J].JournalofMulti-BodyDynamics,2001,21(8):241-252
[14]P.J.Murtagh,B.Basu,B.M.Broderick.Along-windresponseofawindturbinetowerwithbladecouplingsubjectedtorotationallysampledwindloading[J].EngineeringStructures,2015,27(8):1209-1219
[15]刘贻雄.大型风力机塔筒结构动力学与稳定性分析[D].兰州:兰州理工大学硕士论文,2012.
[16]RenWei-xin,DeRoeck,G.Structuraldamageidentificationusingmodaldata.I:SimulationVerification[J].JournalofStructuralEngineering,ASCE,2002,128(1),87-95.
[17]RaffaFA,VattaV.Thedynamicstiffnessmethodforlinearrotor-bearingsystem[J].ASMEJournalofVibrationandAcoustics,2016,118(7):332-339.
[18]VerbruggenTW.Windturbineoperation&maintenancebasedonconditionmonitoringWT-O[R].FinalReport,ECN-C-03-047,2003.

备注/Memo

备注/Memo:
收稿日期:2020-06-25
基金项目:中国电建集团华东勘测设计研究院科研专项“海上风电安全监测技术研究与应用”(KY2017-02-78);国家电力投资集团有限公司科研专项“海上风机基础及升压站在线监测系统与分析平台构建”(DC170081Y)
作者简介:张翼(1962- ),高级工程师,主要从事海上风电工程建设工作。
E-mail:1450980520@qq.com.
更新日期/Last Update: 2020-12-20