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    • 5. 发明公开
    • Systems and method for operating a wind turbine having active flow control
    • 用于操作具有主动流动控制的风力涡轮机的系统和方法
    • EP2320083A3
    • 2014-03-26
    • EP10189311.3
    • 2010-10-28
    • General Electric Company
    • Nies, Jacob JohannesHaans, Wouter
    • F03D11/00F03D7/02
    • F03D7/022F03D17/00F05B2260/83Y02E10/723
    • A flow control system (100,200) for use with a wind turbine is provided. The flow control system includes an air distribution system (102,202) at least partially defined within at least one blade (22) of the wind turbine (10), the air distribution system including at least one aperture (108,208) defined through an outer surface of the blade, and a control system (36,363) in operational control communication with the air distribution system. The control system is configured to operate the wind turbine in a first mode, operate the wind turbine in a second mode that is different than the first mode, acquire operational data of the wind turbine during at least the second mode, determine an effectiveness of the flow control system using the acquired operational data, and perform an action based on the effectiveness of the flow control system.
    • 的流控制系统(100,200),用于与风力涡轮机一起使用提供。 流量控制系统包括:在通过在外表面上限定的空气分配系统(102,202)的风力涡轮机(10),所述空气分配系统包括至少一个孔(108.208)的至少一个叶片(22)内至少部分地限定 叶片,以及与所述空气分配系统处于操作控制通信的控制系统(36.363),该控制系统被配置为在第一模式下操作风力涡轮机,在第二模式下操作风力涡轮机所做的是比第一模式不同 中,至少所述第二模式下,确定性矿使用所获取的操作数据的流控制系统的有效性期间获取所述风力涡轮机的操作数据,并基于该流控制系统的有效性执行采取行动。
    • 7. 发明公开
    • Method for Monitoring a Component in a Hydraulic Circuit, Monitoring Device and Fluid Turbine
    • 一种用于在液压回路监视部件,监视装置和流体涡轮机的方法
    • EP2405145A2
    • 2012-01-11
    • EP11171272.5
    • 2011-06-24
    • General Electric Company
    • Nies, Jacob Johannes
    • F15B19/00
    • F03D9/28F03D9/17F03D9/25F03D17/00F15B19/005Y02E10/72Y02E60/17Y02P80/158Y10T137/0318Y10T137/8158
    • The disclosure concerns a method for monitoring at least one component to be monitored in a hydraulic circuit (200) filled with a working fluid, the hydraulic circuit comprises at least one pump (210, 410, 420, 600, 700) for circulating the working fluid, wherein the method comprises:- changing an operational state of at least one first component (210, 215, 220, 230, 250, 260, 290, 300, 410, 420, 220, 510, 520, 600, 700) in the hydraulic circuit such that a working point of the at least one component to be monitored changes to a predetermined working point; - performing at least one measurement for monitoring the at least one component to be monitored. Further, the disclosure concerns a fluid turbine (100) comprising at least one fluid rotor (160, 415, 425), wherein the fluid rotor is adapted to convert kinetic power of a fluid into a rotation, the fluid turbine further comprising a hydraulic circuit (200) filled with a working fluid.
    • 本发明涉及一种用于监视的方法在填充有工作流体的液压回路(200)要被监视的至少一个部件,所述液压回路的至少一个泵(210,410,420,600,700),用于循环所述加工包括 流体,worin该方法包括: - 在至少一个第一部件(210,215,220,230,250,260,290,300,410,420,220,510,520,600,700)的运行状态改变 液压回路搜索做的至少一个部件的工作点上被监视的变化到预定的工作点; - 用于监控所述至少一个部件执行的至少一个测量进行监测。 此外,本公开涉及一种流体涡轮机(100),包括至少一个流体转子(160,415,425),worin流体转子angepasst到流体的动能转换成转动,流体涡轮机还包括一个液压回路 (200)填充有工作流体。
    • 10. 发明公开
    • Speed controlled pitch system
    • Blatteinstellwinkelsteuerungssystem
    • EP2080902A2
    • 2009-07-22
    • EP09150486.0
    • 2009-01-14
    • General Electric Company
    • Nies, Jacob JohannesAchenbach, PatrickRogall, PeterBraicks, AlexRieken, Stefan
    • F03D7/02
    • F03D7/024F03D7/0224F03D7/043F05B2220/60F05B2260/78F05B2270/328F05B2270/602Y02E10/723
    • The present patent application concerns wind turbine (100) having a rotor with a first rotor blade (140) and a pitch control system (200) with a first drive system (210) for adjusting a pitch angle of the first rotor blade, wherein the first drive system (210) is adapted to transform rotational energy of the rotor blade rotating about its longitudinal axis into another form of energy such that a counter torque against the rotating direction is induced. Further, the present patent application concerns a method for controlling a pitch velocity of a rotor blade of a wind turbine, the wind turbine comprising at least one drive system for adjusting a pitch angle of said rotor blade, the drive system being adapted to operate in a active mode, wherein the drive system rotates the rotor blade, and in a passive mode, wherein the drive system exerts a counter force against the rotating direction, when the rotor blade being rotated by another force than the force of the drive system, wherein the pitch velocity is controlled by operating the drive system in said passive mode when the pitch of the rotor blade is changed from a first position to a second position.
    • 本专利申请涉及具有转子的风力涡轮机(100),该转子具有第一转子叶片(140)和变桨控制系统(200),其具有用于调节第一转子叶片的俯仰角的第一驱动系统(210),其中 第一驱动系统(210)适于将围绕其纵向轴线旋转的转子叶片的旋转能量转换成另一形式的能量,从而引起抵抗旋转方向的反转矩。 此外,本专利申请涉及一种用于控制风力涡轮机的转子叶片的俯仰速度的方法,所述风力涡轮机包括用于调节所述转子叶片的俯仰角的至少一个驱动系统,所述驱动系统适于在 主动模式,其中所述驱动系统使所述转子叶片旋转,并且在被动模式中,其中当所述转子叶片被所述驱动系统的力的另一个力转动时,所述驱动系统施加抵抗所述旋转方向的反作用力,其中 当转子叶片的间距从第一位置改变到第二位置时,通过以所述被动模式操作驱动系统来控制俯仰速度。