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Nonlinear Aeroelastic Equations of Motion of Twisted, Nonuniform, Flexible Horizontal-Axis Wind Turbine Blades

机译：扭曲，非均匀，柔性水平轴风力机叶片的非线性气动弹性运动方程

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The second-degree nonlinear equations of motion for a flexible, twisted, nonuniform, horizontal axis wind turbine blade were developed using Hamilton's principle. A mathematical ordering scheme which was consistent with the assumption of a slender beam was used to discard some higher-order elastic and inertial terms in the second-degree nonlinear equations. The blade aerodynamic loading which was employed accounted for both wind shear and tower shadow and was obtained from strip theory based on a quasi-steady approximation of two-dimensional, incompressible, unsteady, airfoil theory. The resulting equations had periodic coefficients and were suitable for determining the aeroelastic stability and response of large horizontal-axis wind turbine blades.

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作者
Kaza, K. R. V.;
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年度 1980
页码 p.1-70
总页数 70
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Aeroelasticity; Equations of motion; Turbine blades; Turbines; Windpowered generators; Dynamic response; Hamiltonian functions; Horizontal orientation; Nonlinear equations;

机译：气动弹性;运动方程;涡轮叶片;涡轮机;风力发电机;动态响应;哈密顿函数;水平方向;非线性方程;

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1. Nonlinear aeroelastic stability analysis of wind turbine blade with bending-bending-twist coupling [J] . Tingrui Liu, Yongsheng Ren, Xinghua Yang Journal of Fluids and Structures . 2013,第Null期

机译：弯曲-扭转-扭转耦合的风力涡轮机叶片非线性气动弹性稳定性分析
2. Beamlike models for the analyses of curved, twisted and tapered horizontal-axis wind turbine?(HAWT) blades undergoing large displacements [J] . Giovanni Migliaccio, Giuseppe Ruta, Stefano Bennati, Wind Energy Science . 2020,第2期

机译：用于分析弯曲，扭曲和锥形水平轴风力涡轮机的分析模型？（HAWT）刀片正在进行大型位移
3. Non-linear aeroelasticity: An approach to compute the response of three-blade large-scale horizontal-axis wind turbines [J] . C.G. Gebhardt, B.A. Roccia Renewable energy . 2014,第juna期

机译：非线性气动弹性：一种计算三叶片大型水平轴风力发电机响应的方法
4. Aeroelastic stability evaluation of bend-twist coupled composite wind turbine blades designed for load alleviation in wind turbine systems [C] . Touraj Farsadi, Altan Kayran 34th Wind energy symposium 2016 . 2016

机译：设计用于减轻风力涡轮机系统负荷的弯扭耦合复合风力涡轮机叶片的气动弹性稳定性评估
5. In-Plane Blade-Hub Dynamics of Horizontal-Axis Wind Turbines with Tuned and Mistuned Blades [D] . Sapmaz, Ayse . 2020

机译：具有调谐和雾气刀片的水平轴风力涡轮机的面内叶片 - 轮毂动力学
6. Full-Scale Fatigue Testing of a Wind Turbine Blade in Flapwise Direction and Examining the Effect of Crack Propagation on the Blade Performance [O] . Othman Al-Khudairi, Homayoun Hadavinia, Christian Little, 2017

机译：风力涡轮机叶片沿翼展方向的全尺寸疲劳测试并研究裂纹扩展对叶片性能的影响
7. Aeroelastic steady-state response of a horizontal-axis wind turbine generator with teetered rotor blades. (Including five degrees of freedom). [O] . Hisao KONDO, Kohji YOKOYAMA 1989

机译：毛圈式转子叶片水平轴风力涡轮发电机的空气弹性稳态响应。（包括五个自由）。
8. Nonlinear Aeroelastic Equations of Motion of Twisted, Nonuniform, Flexible Horizontal-Axis Wind Turbine Blades [R] . Kaza, K. R. V. 1980

机译：扭曲，非均匀，柔性水平轴风力机叶片的非线性气动弹性运动方程

Nonlinear Aeroelastic Equations of Motion of Twisted, Nonuniform, Flexible Horizontal-Axis Wind Turbine Blades

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