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Guidelines for reducing dynamic loads in two-bladed teetering-hub downwind wind turbines

机译：减少双叶片摇摆式轮毂顺风风力发电机动态负荷的指南

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A major goal of the federal Wind Energy Program is the rapid development and validation of structural models to determine loads and response for a wide variety of different wind turbine configurations operating under extreme conditions. Such codes are crucial to the successful design of future advanced wind turbines. In previous papers the authors described steps they took to develop a model of a two-bladed teetering-hub downwind wind turbine using ADAMS(reg sign) (Automatic Dynamic Analysis of Mechanical Systems), as well as comparison of model predictions to test data. In this paper they show the use of this analytical model to study the influence of various turbine parameters on predicted system loads. They concentrate their study on turbine response in the frequency range of six to ten times the rotor rotational frequency (6P to 10P). Their goal is to identify the most important parameters which influence the response of this type of machine in this frequency range and give turbine designers some general design guidelines for designing two-bladed teetering-hub machines to be less susceptible to vibration. They study the effects of such parameters as blade edgewise and flapwise stiffness, tower top stiffness, blade tip-brake mass, low-speed shaft stiffness, nacelle mass momenta of inertia, and rotor speed. They show which parameters can be varied in order to make the turbine less responsive to such atmospheric inputs as wind shear and tower shadow. They then give designers a set of design guidelines in order to show how these machines can be designed to be less responsive to these inputs.

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作者
Wright, A. D.; Bir, G. S.; Butterfield, C. D.;
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年度 1995
页码 1-16
总页数 16
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Wind Turbines ; A Codes ; Computer Calculations ; Computerized Simulation ; Design ; Mechanical Vibrations ; Response Functions;

机译：风力涡轮机; a代码;计算机计算;计算机模拟;设计;机械振动;响应函数;

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专利

1. Comparative study of yaw and nacelle tilt control strategies for a two-bladed downwind wind turbine [J] . Qiuying Zhao, Yousuf AlKhalifin, Xiang Li, Fluid Mechanics Research International Journal . 2018,第2期

机译：两叶顺风风力发电机偏航和机舱倾斜控制策略的比较研究
2. Control design for a two-bladed downwind teeterless damped free-yaw wind turbine [J] . van Solingen E., Beerens J., Mulders S. P., Mechatronics: The Science of Intelligent Machines . 2016,第Null期

机译：两叶顺风无颤阻尼偏航风力发电机的控制设计
3. Aero-structural dynamics of a flexible hub connection for load reduction on two-bladed wind turbines [J] . Luhmann Birger, Seyedin Homan, Cheng Po-Wen Wind Energy . 2017,第3期

机译：挠性轮毂连接的气动结构动力学，可降低两叶式风力发电机的负荷
4. DOWNWIND TWO-BLADED WIND TURBINE AERODYNAMIC PERFORMANCE EVALUATION IMPLEMENTING ACTUATOR LINE MODEL [C] . Sebastian Henao, Aldo G. Benavides, Omar D. Lopez ASME International Mechanical Engineering Congress and Exposition . 2019

机译：下行双叶风力涡轮机空气动力学性能评估实施执行器线模型
5. An integrated multibody dynamics computational framework for design optimization of wind turbine drivetrains considering wind load uncertainty. [D] . Li, Huaxia. 2016

机译：一个集成的多体动力学计算框架，用于考虑风荷载不确定性的风力涡轮机传动系统的设计优化。
6. Estimating downwind concentrations of viable airborne microorganisms in dynamic atmospheric conditions. [O] . B Lighthart, A J Mohr 1987

机译：估算在动态大气条件下顺风传播的空气中微生物的浓度。
7. Guidelines for reducing dynamic loads in two-bladed teetering-hub downwind wind turbines [O] . Wright, A. D., Bir, G. S., Butterfield, C. D. 1995

机译：减少双叶片摇摆式轮毂顺风风力发电机动态负荷的指南
8. Guidelines for reducing dynamic loads in two-bladed teetering-hub downwind wind turbines [R] . Wright, A. D. , Bir, G. S. , Butterfield, C. D. 1995

机译：减少双叶片摇摆式轮毂顺风风力发电机动态负荷的指南

Guidelines for reducing dynamic loads in two-bladed teetering-hub downwind wind turbines

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