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对近期国内外在风机叶片静载荷测试和模态测试方面的研究成果、测试标准和测试机构进行了评述.

参考文献

[1] Larwood S;Musial W;Freebury G et al.Nedwind 25 blade testing at NREL for the European standards measurement and testing program DE2001-784655 NREL/TP-50029103[R].,2001.
[2] Stensland T;Clark M;Musial W D .Application of BSTRAIN software for wind turbine blade testing NREL/TP440-21507 CONF-960630-7DE96-007950[R].Denver,CO (United States):Windpower 96:American Wind Energy Association (AWEA) Conference,1996.
[3] Musial W D;Clark M E;Egging N et al.Comparison of strength and load-based methods for testing wind turbine blades NREL/CP-440-21979,CONF-970135-9[R].United States,1996.
[4] Bernard B;Jeroen V D;Don V D et al.European wind turbine testing procedure development.SMT4-CT96-2116,Subtask2:Final Report Blade testing methods ECN-C-00-055 European[R].,2000.
[5] Henrik B P;Ole J D K .Applied medal analysis of wind turbine blades Risφ-R-1388(EN)[R].Denmark:Risφ National Laboratory,2003.
[6] Larsen g C;Hansen M H;Banmgart A et al.Modal analysis of wind turbine blades Risφ-R-l181 (EN)[R].Denmark,2002.
[7] Joergensen E R;Borum K K;McGugan M et al.Full scale testing of wind turbine blade to failure-flapwise loading Rio-R-1392 (EN),ISBN 87-550-3184-6; ISBN 87-550-3185-4 (Intemet)[R].Risφ National Laboratory,Roskilde,2004.
[8] F.M. Jensen;B.G. Falzon;J. Ankersen;H. Stang .Structural testing and numerical simulation of a 34 m composite wind turbine blade[J].Composite structures,2006(1/2):52-61.
[9] Dosmond M .The Development of a wind turbine blade finite element model to presict loads and deflections during static and fatigue structural testing[D].Embry-Riddh Aeronautical University,Daytona Beach,FL,2009.
[10] Malhotra P .Advanced blade testing methods for wind turbines[D].University of Massachusetts Amherst,2010.
[11] L.C.T. Overgaard;E. Lund;O.T. Thomsen .Structural collapse of a wind turbine blade. Part A: Static test and equivalent single layered models[J].Composites, Part A. Applied science and manufacturing,2010(2):257-270.
[12] Dutton A G;Blanch M;Vionis P et al.Acoustic emission monitoring from wind turbine blades undergoing static and fatigue testing[J].British Journal of NDT Insight,2000,42(12):805-808.
[13] Wacker G.Requirments for the certification of rotor blade[M].Germanischer Lloyd WindEnergie GmbH,Hamburg,Germany
[14] 曹人靖,刘道兴.水平轴风力机风轮静态结构特性试验研究[J].太阳能学报,2001(04):436-439.
[15] 中国人民解放军国防科学技术大学;株洲时代新材料科技股份有限公司 .风电用大型叶片的静强度测试方法及其测试系统[P].中国,NO.200910306642,2009-10-30.
[16] 朱永凯,潘仁前,陈盛票,田贵云.基于声发射传感器阵列的风机叶片结构健康监测方法[J].无损检测,2010(10):753-756,761.
[17] Ewins D J.Modal testing-theory/practice and application[M].Denmark,Research Studies Press Ltd,2000
[18] 黄小华,李德源.风力机叶片动力特性测试分析方法研究[J].长江大学学报A(自然科学版),2007(02):92-94.
[19] Ginsberg;Jerry H;白化同;李俊宝.机械与结构振动:理论与应用[M].北京:宇航出版社,2005
[20] 李录平,晋风华,李杰,刘陶毅,张国富.透平叶片几种减振结构的阻尼特性试验研究[J].动力工程,2004(06):793-797.
[21] 吴春梅,田瑞,刘博,高志鹰.小型水平轴风力机叶片的振动性能的研究[J].能源技术,2006(05):205-207.
[22] 吴春梅;田瑞;陈永艳.风力机叶片模态实验影响因素的分析[A].绍兴,2007
[23] 叶枝全,马昊晻,丁康,包能胜,曹人靖.水平轴风力机桨叶的实验模态分析[J].太阳能学报,2001(04):473-476.
[24] 李德源,叶枝全,包能胜,陈严.风力机旋转风轮振动模态分析[J].太阳能学报,2004(01):72-77.
[25] 王琪,杜伟宏,孙淑霞.水平轴风力发电机结构动态特性的测试与分析[J].沈阳工业大学学报,2001(02):107-109.
[26] 李声艳,徐玉秀,周晓梅.风力发电机组风轮的动态特性分析[J].天津工业大学学报,2006(06):65-67.
[27] 毛火军 .风电叶片全尺寸检测和结构分析[D].中国科学院工程热物理研究所,2008.
[28] IEC TS 61400-23.Wind turbine generator systemspart 23:Full-Scale Structural Testing of Rotor Blades[S].,2001.
[29] Guideline for the certification of wind turbine[S].Germanischer Lloyd Wind Engerqie CmbH.German,2003.
[30] JBT10194-2000风电机组风能叶片[S].,2000.
[31] Cotrell J;Musial W;Hughes S .Necessity and requirements of a collaborative effect to develop a large wind turbine blade test facility in north america NREL/TP-500-38044[R].National Renewable Energy Laboratory,2006.
[32] 王仲颖;胡润青;秦海岩 等.中国风电产业化发展国家行动方案[R].中国可再生能源规模化发展项目,2005.
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