The Research on Non-destructive Testing Technology for Wind Power System
摘 要
风力发电是一个集计算机技术、空气动力学、结构力学和材料科学等综合性学科的技术。对风力发电设备进行无损检测和健康监控是增加其寿命、降低其发电和维护成本的有效手段。文章介绍了风力发电设备的失效分析,无损检测技术在风力发电设备在线状态监控方面的应用现状及技术难点和发展趋势,特别是目前国内风电设备状态监控的现状与前景。
Abstract
Wind power generation is a set of computer technology, integrated disciplines such as aerodynamics, structural mechanics and materials science technology. Nondestructive testing and health monitoring of wind power generation equipment is necessary for increasing its life, lowering power and maintenance costs. This paper describes the wind power generation equipment failure analysis, nondestructive testing application status and the technical difficulties and the development trends in the online condition monitoring of wind power equipment, especially in China.
中图分类号 TG115.28
所属栏目 2012远东无损检测新技术论坛论文精选
基金项目
收稿日期 2012/5/22
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备注丁松(1977-),男,博士研究生,讲师,主要从事MBN法齿轮应力状态检测方面的工作。
引用该论文: DING Song,TIAN Gui-Yun,WANG Ping. The Research on Non-destructive Testing Technology for Wind Power System[J]. Nondestructive Testing, 2012, 34(11): 37~41
丁松,田贵云,王平. 风力发电设备无损检测技术研究[J]. 无损检测, 2012, 34(11): 37~41
被引情况:
【1】丁 松,王 平,田贵云, "基于主成分分析的18CrNiMo7-6材料理化参数无损评估方法",无损检测 38, 12-16(2016)
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参考文献
【1】Gwec G W E C. GLOBAL WIND 2008 REPORT[EB/OL]. [Available from: http://www.gwec.net/fileadmin/documents/Global%20Wind%202008%20 Report.pdf
【2】Wwea W W E A. World Wind Energy Report 2008[EB/OL]. [Available from: http://www.wwindea.org/home/images/stories/worldwindenergyreport2008_s.pdf
【3】Technology White Paper on Wind Energy Potential on the U.S. Outer Continental Shelf[EB/OL]. http://www.ocsenergy.anl.gov/documents/docs/OCS_EIS_WhitePaper_Wind.pdf
【4】Thomas M H, Dharmaraj M,, James E L. Post buckling analysis of a wind turbine blade substructure[J]. Journal of Solar Energy Engineering,2005,127(4):552-544.
【5】Mahmood M s, Roham R. Simulation of fatigue failure in a full composite wind turbine blade[J]. Composite Structures,2006,74(3):332-342.
【6】周伟,张晓霞,韦子晖,等.风电叶片复合材料压缩损伤破坏声发射监测[J].工程塑料应用,2011,39(11):61.
【7】Wenyi Liu, Baoping Tang, Yonghua Jiang. Status and problems of wind turbine structural health monitoring techniques in China[J]. Renewable Energy,2010,35:1414-1418.
【8】刘贤焕,叶仲和.大型风力发电机组用齿轮箱优化设计及方案分析[J].机械设计与研究,2006(9):92-94.
【9】吉田秋良,大上佑司,石川宏志,等.基于具有动态特性的小波变换的齿轮轮齿表面故障诊断[J].设备管理与维修,2006(5):45-46.
【10】白亚红,王奉涛.EMD分解和支持向量机技术在风电齿轮箱早期齿轮磨损故障诊断中的应用[J].工业控制计算机,2010,23(2):70-71.
【11】高玉奎.齿轮表面完整性的无损检测与残余应力分析技术[C].动力传动检测会议,北京,2010.
【2】Wwea W W E A. World Wind Energy Report 2008[EB/OL]. [Available from: http://www.wwindea.org/home/images/stories/worldwindenergyreport2008_s.pdf
【3】Technology White Paper on Wind Energy Potential on the U.S. Outer Continental Shelf[EB/OL]. http://www.ocsenergy.anl.gov/documents/docs/OCS_EIS_WhitePaper_Wind.pdf
【4】Thomas M H, Dharmaraj M,, James E L. Post buckling analysis of a wind turbine blade substructure[J]. Journal of Solar Energy Engineering,2005,127(4):552-544.
【5】Mahmood M s, Roham R. Simulation of fatigue failure in a full composite wind turbine blade[J]. Composite Structures,2006,74(3):332-342.
【6】周伟,张晓霞,韦子晖,等.风电叶片复合材料压缩损伤破坏声发射监测[J].工程塑料应用,2011,39(11):61.
【7】Wenyi Liu, Baoping Tang, Yonghua Jiang. Status and problems of wind turbine structural health monitoring techniques in China[J]. Renewable Energy,2010,35:1414-1418.
【8】刘贤焕,叶仲和.大型风力发电机组用齿轮箱优化设计及方案分析[J].机械设计与研究,2006(9):92-94.
【9】吉田秋良,大上佑司,石川宏志,等.基于具有动态特性的小波变换的齿轮轮齿表面故障诊断[J].设备管理与维修,2006(5):45-46.
【10】白亚红,王奉涛.EMD分解和支持向量机技术在风电齿轮箱早期齿轮磨损故障诊断中的应用[J].工业控制计算机,2010,23(2):70-71.
【11】高玉奎.齿轮表面完整性的无损检测与残余应力分析技术[C].动力传动检测会议,北京,2010.
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