Simulation of Mechanical Behavior and Damage of a Large Composite Wind Turbine Blade under Critical Loads

被引:36
|
作者
Tarfaoui, M. [1 ]
Nachtane, M. [1 ,2 ]
Khadimallah, H. [1 ]
Saifaoui, D. [2 ]
机构
[1] ENSTA Bretagne, IRDL, LBMS, Dept Fluid Dynam Mat & Struct, F-29806 Brest, France
[2] FSAC UH2C, Lab Renewable Energy & Dynam Syst, Casablanca, Morocco
关键词
Composite wind turbine blade; Finite element analysis; Mechanical behavior; FAILURE; ENERGY;
D O I
10.1007/s10443-017-9612-x
中图分类号
TB33 [复合材料];
学科分类号
摘要
Issues such as energy generation/transmission and greenhouse gas emissions are the two energy problems we face today. In this context, renewable energy sources are a necessary part of the solution essentially winds power, which is one of the most profitable sources of competition with new fossil energy facilities. This paper present the simulation of mechanical behavior and damage of a 48 m composite wind turbine blade under critical wind loads. The finite element analysis was performed by using ABAQUS code to predict the most critical damage behavior and to apprehend and obtain knowledge of the complex structural behavior of wind turbine blades. The approach developed based on the nonlinear FE analysis using mean values for the material properties and the failure criteria of Tsai-Hill to predict failure modes in large structures and to identify the sensitive zones.
引用
收藏
页码:237 / 254
页数:18
相关论文
共 50 条
  • [1] Simulation of Mechanical Behavior and Damage of a Large Composite Wind Turbine Blade under Critical Loads
    M. Tarfaoui
    M. Nachtane
    H. Khadimallah
    D. Saifaoui
    [J]. Applied Composite Materials, 2018, 25 : 237 - 254
  • [2] Simulation of buckling-driven progressive damage in composite wind turbine blade under extreme wind loads
    Ullah, Himayat
    Alam, Khurshid
    Iqbal, Muhammad
    Husain, Afzal
    V. Silberschmidt, Vadim
    [J]. ENGINEERING FAILURE ANALYSIS, 2022, 140
  • [3] Failure analysis of wind turbine blade under critical wind loads
    Chou, Jui-Sheng
    Chiu, Chien-Kuo
    Huang, I-Kui
    Chi, Kai-Ning
    [J]. ENGINEERING FAILURE ANALYSIS, 2013, 27 : 99 - 118
  • [4] Simulation of aeroelastic behavior in a composite wind turbine blade
    Rafiee, Roham
    Tahani, Mojtaba
    Moradi, Mohsen
    [J]. JOURNAL OF WIND ENGINEERING AND INDUSTRIAL AERODYNAMICS, 2016, 151 : 60 - 69
  • [5] Structural optimization of composite wind turbine blade under aerodynamic loads
    Wang, Quan
    Chen, Jin
    Wang, Jun
    You, Ying
    Sun, Jinfeng
    Wu, Shuhui
    [J]. Jixie Gongcheng Xuebao/Journal of Mechanical Engineering, 2014, 50 (09): : 114 - 121
  • [6] A Critical Review of Damage and Failure of Composite Wind Turbine Blade Structures
    Chen, Xiao
    Eder, Martin A.
    [J]. 41ST RISO INTERNATIONAL SYMPOSIUM ON MATERIALS SCIENCE: MATERIALS AND DESIGN FOR NEXT GENERATION WIND TURBINE BLADES, 2020, 942
  • [7] Analysis of Mechanical Properties of Large Wind Turbine Composite Blade Considering Weight of Blade
    Zhang, Li
    Miao, Weipao
    Yan, Yangtian
    Li, Chun
    Wang, Bo
    Liu, Qingsong
    [J]. Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, 2020, 40 (19): : 6272 - 6283
  • [8] A simulation model for wind turbine blade fatigue loads
    Noda, M
    Flay, RGJ
    [J]. JOURNAL OF WIND ENGINEERING AND INDUSTRIAL AERODYNAMICS, 1999, 83 : 527 - 540
  • [9] Failure Test and Finite Element Simulation of a Large Wind Turbine Composite Blade under Static Loading
    Chen, Xiao
    Zhao, Wei
    Zhao, Xiao Lu
    Xu, Jian Zhong
    [J]. ENERGIES, 2014, 7 (04) : 2274 - 2297
  • [10] Fatigue damage analysis of composite wind turbine blade
    Wang, Jing
    Huang, Zhihua
    Li, Yinghui
    [J]. TRANSFERABILITY AND APPLICABILITY OF CURRENT MECHANICS APPROACHES, 2009, : 563 - 568