1) wind generator design
风力发电机设计
1.
Inner-rotor direct-coupled structure is adopted in wind generator design.
选择内转子直驱永磁的电机系统结构进行风力发电机设计。
2) blade designing theory of CWET
浓缩风能型风力发电机叶轮设计理论
3) wind-driven generator
风力发电机
1.
Aiming at requirement of control for megawatt wind-driven generator with variable propeller pitch of horizontal axis, a hydraulic control system is designed.
针对兆瓦级水平轴变桨距风力发电机的控制要求,设计了液压控制系统。
2.
The structure shape design of the wind-driven generator rotor blade,the development of the blade materials used in the wind power generation field,and the development of the blade manufacturing process have been studied in this paper.
对风力发电机叶轮叶片的结构形状设计、风力发电领域中叶片材料的进展、叶片制造工艺进展等方面进行了研究,并在此基础上介绍了国内外风力发电机产品的特点和发展。
3.
Based on its merit,double-fed wind-driven generator has become one of mainstream model of wind-driven generator which connect with grid directly.
双馈风力发电机由于其的优点,己成为并网型风力发电机的主流机型之一。
4) wind turbine
风力发电机
1.
Stimulation and analysis on the tower vibration of an off-grid wind turbine model;
离网型风力发电机塔架振动问题的模态分析
2.
Research on a multi-task hydraulic testing system for wind turbines;
风力发电机多任务液压测试系统技术研究
3.
Research on Wind Turbine Controller Based on CAN-Bus;
基于CAN总线的风力发电机控制器的研究
5) wind power generator
风力发电机
1.
LPV H-infinity controller design for wind power generator;
风力发电机组的LPV H_∞控制器设计
2.
Development and research progress of wind power generators
风力发电机发展现状及研究进展
3.
A rotor system of the magnetic suspending wind power generator is designed,which is supported with magnetic bearings in radial direction and constrained with mechanical force in axial direction.
设计了一种磁悬浮风力发电机的转子系统,径向方向采用磁力轴承支承,轴向方向靠机械力约束。
6) Wind turbine generator
风力发电机
1.
Research on the reliability design theory for MW scale wind turbine generator system;
兆瓦风力发电机系统可靠性设计理论研究
2.
Model reference adaptive control of variable speed wind turbine generator;
变速风力发电机模型参考自适应控制
3.
Representative controlling strategy in major wind turbine generator with plane shaft;
大型风力发电机的典型控制策略
补充资料:风力/阳光发电系统
风力/阳光发电系统
wind/photovoltaic system
风力/阳光发电系统(wind/photovoltaiesystem)风力发电机与太阳电池组成的供电系统。其结构如图所示。由风力发电机及太阳电池输出的直流电皆向蓄电池充电.再由蓄电池输出恒压直流电供直流负载或经逆变器转换为交流电供交流负载。 风能、太阳能都具有能量密度低、稳定性差的弱┌─┐ │ │ ┌────┐└─┘ │.蓄电池 │ └────┘ ┌───┐ │电阻性│ │电热器│ └───┘ 风力/阳光发电系统点,并受地理分布、季节变化、昼夜变化等因素的影响。中国属于季风气候区,冬春季节风力强,太阳辐射弱;夏秋季风力弱,太阳辐射强,两者能量变化趋势相反,风力/阳光发电系统利用能量互补的特性,可输出比较稳定的电能,并增加供电的可靠性。风力/阳光发电系统中风力发电机、太阳电池阵列及蓄电池的容量可根据风能、太阳能变化规律及负载变化规律得出。 (王承胶)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条