A novel adaptive blade concept for large-scale wind turbines. Part Ⅰ: Aeroelastic behaviour

M. Capuzzi; A. Pirrera; P.M. Weaver

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A novel adaptive blade concept for large-scale wind turbines. Part Ⅰ: Aeroelastic behaviour

机译：一种适用于大型风力涡轮机的新型自适应叶片概念。第一部分：气弹行为

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This two-part paper introduces a novel aeroelastic approach to the design of large-scale wind turbine blades. By suitably tailoring the blade's elastic response to aerodynamic pressure, the turbine's Annual Energy Production is shown to increase, while simultaneously alleviating extreme loading conditions due to gusts. In Part Ⅰ, we use a current blade as the baseline for an aerodynamic analysis aimed at maximising the turbine's yielded power. These results are then used to identify ideal aeroelastic behaviour. In Part Ⅱ, we exploit material and structural bend-twist couplings in the main spar to induce appropriate differential blade twist, section by section, while bending flap-wise.

机译：这篇由两部分组成的论文介绍了一种新颖的气动弹性方法来设计大型风力涡轮机叶片。通过适当地调整叶片对气动压力的弹性响应，可以显示出涡轮机的年发电量增加，同时减轻了由于阵风引起的极端负载情况。在第一部分中，我们以当前叶片为基准进行空气动力学分析，以最大程度地提高涡轮机的产生功率。然后将这些结果用于确定理想的空气弹性行为。在第二部分中，我们利用主翼梁中的材料和结构弯曲扭转耦合，在逐瓣弯曲的同时，逐段地引起适当的叶片微分扭曲。

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来源
《Energy》 |2014年第14期|15-24|共10页
作者
M. Capuzzi; A. Pirrera; P.M. Weaver;
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作者单位

Advanced Composites Centre for Innovation and Science, Aerospace Engineering Department, University of Bristol, Queen's Building, University Walk, Bristol BS8 1TR, UK;

Advanced Composites Centre for Innovation and Science, Aerospace Engineering Department, University of Bristol, Queen's Building, University Walk, Bristol BS8 1TR, UK;

Advanced Composites Centre for Innovation and Science, Aerospace Engineering Department, University of Bristol, Queen's Building, University Walk, Bristol BS8 1TR, UK;

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原文格式 PDF
正文语种 eng
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关键词
Wind turbine blade design; Aeroelastic tailoring; Yielded power maximisation;

机译：风力发电机叶片设计;气动弹性剪裁;屈服功率最大化;

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专利

1. A novel adaptive blade concept for large-scale wind turbines. Part Ⅱ: Structural design and power performance [J] . M. Capuzzi, A. Pirrera, P.M. Weaver Energy . 2014,第auga14期

机译：一种适用于大型风力涡轮机的新型自适应叶片概念。第二部分：结构设计与功率性能
2. 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
3. Adaptive Control Design for Aeroelastic Suppression of Wind Turbine Blade [J] . N.Li, M.J. Balas Wind Engineering . 2013,第2期

机译：风力涡轮机叶片气动弹性抑制的自适应控制设计
4. Adaptive Aeroelastic Suppression of a Wind Turbine Blade using Trailing-edge Flap [C] . Nailu Li, Mark J. Balas AIAA atmospheric flight mechanics conference 2014 . 2014

机译：使用后缘襟翼的风力涡轮机叶片自适应气弹抑制
5. Assessing the Influence of Wake Dynamics on the Performance and Aeroelastic Behavior of Wind Turbines. [D] . Kecskemety, Krista Marie. 2012

机译：评估尾流动力学对风力涡轮机性能和气动弹性行为的影响。
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. Evaluation of Design Concepts for Adaptive Wind Turbine Blades [O] . GRIFFIN, DAYTON A. 2002

机译：自适应风力机叶片设计理念评估

A novel adaptive blade concept for large-scale wind turbines. Part Ⅰ: Aeroelastic behaviour

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