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    • 1. 发明授权
    • Method and system for controlling wind farm when wind speed varies abruptly
    • 风速突然变化时控制风电场的方法和系统
    • US08587142B2
    • 2013-11-19
    • US13225422
    • 2011-09-03
    • Yong Cheol KangYeon Hee KimTai Ying Zheng
    • Yong Cheol KangYeon Hee KimTai Ying Zheng
    • H02P9/04
    • F03D7/048F03D9/257Y02E10/723
    • The present invention relates to a method and system for controlling a wind farm when a ramp up or ramp down rate of the wind farm does not satisfy a grid-code or corresponding criteria due to an abrupt change in wind speed. The method and system for controlling a wind farm includes the steps of measuring speed and direction of wind performed outside the wind farm, sequentially controlling wind turbines if the wind speed abruptly changes considering a time for the wind to arrive at the wind turbines, determining the number of wind turbines to be controlled simultaneously so that the wind farm may satisfy the grid-code at this point, grouping the wind turbines, determining a control sequence and a control time of each group, and adjusting a control end time if stopping times of adjacent groups are overlapped when the wind turbines are stopped.
    • 本发明涉及一种风电场的斜坡上升或下降速率由于风速突然变化而不满足电网码或相应准则的情况下,用于控制风电场的方法和系统。 用于控制风力发电场的方法和系统包括以下步骤:测量在风力发电场外进行的风的速度和方向,如果考虑到风到达风力涡轮机的时间风速突然改变,则依次控制风力涡轮机,确定 要同时控制的风力涡轮机的数量,使得风力发电场在这一点上可以满足电网码,分组风力涡轮机,确定每个组的控制序列和控制时间,以及如果停止时间 当风力涡轮机停止时,相邻的组重叠。
    • 3. 发明授权
    • Relaying method for protecting transformers
    • 保护变压器的中继方法
    • US06731481B2
    • 2004-05-04
    • US10001599
    • 2001-10-23
    • Yong Cheol KangSang Hee KangByung Eun LeeJae Sung YunSeung Hun Ok
    • Yong Cheol KangSang Hee KangByung Eun LeeJae Sung YunSeung Hun Ok
    • H02H704
    • H02H7/0455H02H6/005
    • The present invention relates to a relaying method using the ratio of induced voltages or the ratio of flux linkage increments. The protective relaying method for power transformers with one or more phases includes the first step of obtaining primary and secondary voltages and currents of the transformer; the second step of calculating induced voltages, induced voltage differences, ratio of primary and secondary induced voltages, or ratio of primary and secondary induced voltage differences from the currents and the voltages; the third step of calculating at least one predetermined decision parameter derived from at least one predetermined equation; the fourth step of deciding whether an internal winding fault occurs by comparing the decision parameter to the induced voltages, the induced voltage differences, the ratio of primary and secondary induced voltages, or the ratio of primary and secondary induced voltage differences.
    • 本发明涉及使用感应电压比或磁链增量比的中继方法。 具有一个或多个相的电力变压器的保护继电方法包括获得变压器的初级和次级电压和电流的第一步骤; 计算感应电压,感应电压差,初级和次级感应电压的比率或初级和次级感应电压差与电流和电压的比率的第二步; 计算从至少一个预定方程导出的至少一个预定决定参数的第三步骤; 通过将判定参数与感应电压,感应电压差,初级和次级感应电压的比率或初级和次级感应电压差的比值进行比较来决定是否发生内部绕组故障。
    • 5. 发明申请
    • Error Compensating Method for Instrument Transformer
    • 仪器变压器误差补偿方法
    • US20110210715A1
    • 2011-09-01
    • US11991607
    • 2006-07-27
    • Yong Kyun KimYong Cheol KangSung Il Jang
    • Yong Kyun KimYong Cheol KangSung Il Jang
    • H01F38/28
    • H01F27/422G01R35/02
    • Provided an error compensating method for an instrument transformer, in which an error of an instrument transformer is compensated by reflecting hysteresis characteristics of iron core. When such error compensation is performed, a hysteresis loop indicating the relationship between magnetic flux and excitation current is not used as it is, but core-loss resistances and magnetic flux-excitation current curves are used, thereby achieving more precise compensation. According to the present invention, an error of an instrument transformer can be significantly reduced. Therefore, it is possible to manufacture an instrument transformer with high accuracy and to significantly reduce the size of the instrument transformer. Further, a material with high permeability does not need to be used in order to increase the accuracy.
    • 提供了一种仪表变压器的误差补偿方法,其中通过反映铁芯的磁滞特性来补偿仪表变压器的误差。 当进行这种误差补偿时,不直接使用指示磁通与励磁电流的关系的磁滞回线,而是使用铁心损耗电阻和磁通励磁电流曲线,从而实现更精确的补偿。 根据本发明,可以显着地减少仪表变压器的误差。 因此,可以以高精度制造仪表变压器,并显着减小仪表变压器的尺寸。 此外,为了提高精度,不需要使用具有高磁导率的材料。