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    • 2. 发明授权
    • Device and method of adjusting curtailment strategy for wind turbine, and program
    • 调整风力发电机组削减策略的设备及方法及程序
    • US08694268B2
    • 2014-04-08
    • US12934081
    • 2009-07-10
    • Kai KarikomiShigeto HiraiYoshiyuki Hayashi
    • Kai KarikomiShigeto HiraiYoshiyuki Hayashi
    • G01B3/44
    • F03D7/0292F05B2270/1095F05B2270/331F05B2270/332Y02E10/723
    • An object is to suppress reduction of energy production as much as possible while ensuring an expected lifetime. There is provided a device of adjusting a curtailment strategy for a wind turbine, the device including: a fatigue equivalent load calculation unit that calculates a fatigue equivalent load for evaluating a fatigue damage of the wind turbine in a predetermined time period by using load data of the wind turbine; and a setting value update unit that compares the fatigue equivalent load with a reference load determined by an expected lifetime of the wind turbine, and, when a difference between the fatigue equivalent load and the reference load exceeds a predetermined threshold value, updates the condition setting value for the curtailment that is currently employed according to the difference.
    • 目的是尽可能地抑制能源生产的减少,同时确保预期的使用寿命。 提供了一种调整风力涡轮机的限制策略的装置,该装置包括:疲劳等效载荷计算单元,其通过使用负载数据计算在预定时间段内评估风力涡轮机的疲劳损伤的疲劳等效载荷 风力发电机; 以及设定值更新单元,其将疲劳等效负荷与由所述风力涡轮机的预期寿命确定的基准负荷进行比较,并且当所述疲劳等效负荷与所述基准负载之间的差超过预定阈值时,更新所述条件设定 根据差异目前使用的削减价值。
    • 6. 发明授权
    • Wind turbine generator, active damping method thereof, and windmill tower
    • 风力发电机,主动阻尼法,风车塔
    • US07692322B2
    • 2010-04-06
    • US10590328
    • 2004-11-12
    • Tsuyoshi WakasaKazunari IdeYoshiyuki HayashiMasaaki Shibata
    • Tsuyoshi WakasaKazunari IdeYoshiyuki HayashiMasaaki Shibata
    • H02P9/04F03D9/00
    • F03D7/0224F03D7/0296F03D7/043F03D9/25F05B2260/71F05B2260/74F05B2260/821F05B2260/96F05B2270/1021F05B2270/309F05B2270/334F05B2270/404F05B2270/807Y02B10/30Y02E10/723
    • A wind turbine generator, an active damping method thereof, and a windmill tower in which vibrations of the wind turbine generator itself or the windmill tower can be reduced at low cost are provided. The acceleration due to vibrations of a nacelle (13) is detected with an accelerometer (17) attached to the nacelle (13). In an active damping unit (20), a pitch angle of windmill blades (12) for generating a thrust on the windmill blades (12) so as to cancel out the vibrations of the nacelle (13) is calculated on the basis of the acceleration, and the pitch angle is output as a blade-pitch-angle command δθ* for damping. On the other hand, in a pitch-angle control unit (30), a pitch angle of the windmill blades (12) for controlling the output to be a predetermined value is calculated, and the pitch angle is output as a blade-pitch-angle command θ* for output control. The blade-pitch-angle command δθ* for damping is combined with the blade-pitch-angle command θ* for output control using a subtracter (40). The pitch angle of the windmill blades is controlled on the basis of the resulting blade-pitch-angle command after combining.
    • 提供了一种风力发电机,其主动阻尼方法和风车塔,其中可以以低成本降低风力涡轮发电机本身或风车塔的振动。 由于机舱(13)的振动引起的加速度是用安装在机舱(13)上的加速度计(17)来检测的。 在主动阻尼单元(20)中,基于加速度来计算用于在风车叶片(12)上产生推力以抵消机舱(13)的振动的风车叶片(12)的俯仰角, 并且桨距角作为叶片间距角指令δ& *; *作为阻尼输出。 另一方面,在俯仰角控制单元(30)中,计算用于将输出控制为规定值的风车叶片(12)的俯仰角,作为叶片间距输出, 角度命令和* *输出控制。 用于阻尼的叶片桨距角度指令δ和桨距 - 角度指令&*; *用于使用减法器(40)进行输出控制。 在组合之后,基于所得到的叶片间距角命令来控制风车叶片的俯仰角。
    • 7. 发明申请
    • WIND TURBINE GENERATOR, WIND TURBINE GENERATOR SYSTEM, AND POWER GENERATION CONTROL METHOD OF WIND TURBINE GENERATOR
    • 风力发电机,风力发电机系统,风力发电机发电控制方法
    • US20100066087A1
    • 2010-03-18
    • US12447505
    • 2008-05-14
    • Yoshiyuki HayashiMasaaki Shibata
    • Yoshiyuki HayashiMasaaki Shibata
    • F03D7/00F03D9/00
    • F03D7/0204F03D7/043F05B2240/96F05B2260/821F05B2270/32F05B2270/321F05B2270/329F05B2270/335F05B2270/80H02P9/00H02P2101/15H02P2207/01H02P2207/05Y02E10/721Y02E10/723Y02E10/725
    • To provide a wind turbine generator, a wind turbine generator system, and a power-generation control method of a wind turbine generator that are capable of improving the power-generation capability and reducing the fatigue load on the windmill. A data accumulation unit 25 sequentially accumulates data sets of a generated output power P during operation of the wind turbine generator, an incoming wind speed Ws estimated on the basis of a wind speed measured at the anemometer, and a wind direction deviation, which is the difference between a wind direction θw measured at the anemoscope and the orientation of the nacelle; statistical analysis of the data accumulated is carried out by an analyzing unit 26; a distribution curve corresponding to the wind direction deviation of the generated output power at each incoming wind speed is determined; the wind direction deviation corresponding to the peak of the distribution curve is set as a correction value θd of the anemoscope; the correction value of the anemoscope for each incoming wind speed is stored in the wind-direction correction table 27; the wind direction Vw measured at the anemoscope is corrected with the correction value θd of the anemoscope for each incoming wind speed Ws; and power-generation control is carried out using the corrected wind direction as a control parameter.
    • 提供能够提高发电能力并降低风车上的疲劳载荷的风力涡轮发电机,风力涡轮发电机系统和风力发电机的发电控制方法。 数据累积单元25在风力涡轮发电机的运行期间顺序累积产生的输出功率P的数据组,基于在风速计测量的风速估计的进风风速Ws和风向偏差 风向和风向之间的差异; w在风向仪上测量的和机舱的方位; 数据累积的统计分析由分析单元26进行; 确定对应于每个进入风速时产生的输出功率的风向偏差的分布曲线; 对应于分布曲线峰值的风向偏差被设定为风向仪的校正值& d; d; 每个进风速度的风向仪的校正值存储在风向校正表27中; 风向仪测量的风向Vw用每个进风速度Ws的风向仪的校正值& 并且使用校正后的风向作为控制参数进行发电控制。