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Design, manufacturing and characterization of aero-elastically scaled wind turbine blades for testing active and passive load alleviation techniques within a ABL wind tunnel

机译：空气弹性缩放风力涡轮机叶片的设计，制造和表征，用于测试ABL风洞内的主动和被动负载缓解技术

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In the research described in this paper, a scaled wind turbine model featuring individual pitch control (IPC) capabilities, and equipped with aero-elastically scaled blades featuring passive load reduction capabilities (bend-twist coupling, BTC), was constructed to investigate, by means of wind tunnel testing, the load alleviation potential of BTC and its synergy with active load reduction techniques. The paper mainly focus on the design of the aero-elastic blades and their dynamic and static structural characterization. The experimental results highlight that manufactured blades show desired bend-twist coupling behavior and are a first milestone toward their testing in the wind tunnel.

机译：在本文描述的研究中，构建了一种具有单个俯仰控制（IPC）能力的缩放风力涡轮机模型，并配备了具有被动负载降低功能（Bend-Twist联轴器，BTC）的航空弹性缩放刀片，以调查风洞试验方法，BTC的负荷缓解潜力及其具有主动负载减少技术的协同作用。本文主要专注于航空弹性叶片的设计及其动态和静态结构特征。实验结果突出显示制造的刀片显示所需的弯曲扭转耦合行为，并且是在风洞中测试其测试的第一个里程碑。

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《Science of Making Torque from Wind Conference》|2014年||共10页
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作者
Filippo Campagnolo; Carlo L Bottasso; Paolo Bettini;
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原文格式 PDF
正文语种
中图分类 TK81-532;
关键词
reduction; wind; broadly;

机译：减少;风;广泛的;

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专利

1. Active load control of wind turbine blade section with trailing edge flap: Wind tunnel testing [J] . Jong-Won Lee, Jae-Hung Han, Hyung-Ki Shin, Journal of intelligent material systems and structures . 2014,第18期

机译：带有后缘襟翼的风力涡轮机叶片部分的主动负载控制：风洞测试
2. Wind tunnel testing of scaled models of a newly developed Darrieus-style vertical axis wind turbine with auxiliary straight blades [J] . Scungio M., Arpino F., Focanti V., Energy Conversion & Management . 2016,第deca15期

机译：新开发的带有辅助直叶片的Darrieus式垂直轴风力发电机比例模型的风洞测试
3. Ground testing of a 1% gravo-aeroelastically scaled additively- manufactured wind turbine blade with bio-inspired structural design [J] . Kaminski Meghan, Loth Eric, Griffith D. Todd, Renewable energy . 2020,第Apra期

机译：用生物启发结构设计的1％Gravo-Aero-reallastics缩放的1％Gravo-Aero-气球缩放的地面测试
4. Design, manufacturing and characterization of aero-elastically scaled wind turbine blades for testing active and passive load alleviation techniques within a ABL wind tunnel [C] . Filippo Campagnolo, Carlo L Bottasso, Paolo Bettini Science of Making Torque from Wind Conference . 2014

机译：空气弹性缩放风力涡轮机叶片的设计，制造和表征，用于测试ABL风洞内的主动和被动负载缓解技术
5. The impact of inertia forces on a morphing wind turbine blade in a vertical axis configuration: A wind tunnel test. [D] . Butbul, Jonathan Amichai. 2014

机译：惯性力在垂直轴配置下对变形的风力涡轮机叶片的影响：风洞测试。
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. Design, Manufacturing and Characterization of Aero-Elastically Scaled Wind Turbine Blades for Testing Active and Passive Load Alleviation Techniques within a ABL Wind Tunnel [O] . F. Campagnolo, C.L. Bottasso, P. Bettini 2014

机译：用于测试ABL风洞内主动和被动载荷减轻技术的气动弹性缩放风力涡轮机叶片的设计，制造和表征

Design, manufacturing and characterization of aero-elastically scaled wind turbine blades for testing active and passive load alleviation techniques within a ABL wind tunnel

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