在这些技术要求中最为人们重视的是风电机组的低电压穿越(low voltage ride-through,LVRT)能力,即当电网发生故障或扰动引起风电场并网点电压跌落时,在一定的电压跌落范围内,风电机组能够不间断并...
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为增强直驱型变速恒频风电系统的低电压穿越能力,采取了变流器直流侧增加卸荷负载以在故障时消耗掉直流侧多余的能量,使风电机组的正常运行基本不受电压跌落影响的应对措施。
By adding damp load at DC-side of the converter, redundant energy at DC-side during grid faults will be consumed, therefore the operating of wind turbine will not be influenced by grid voltage sags.
随着风力发电在电网中的比例日益增加,电网对风电机组的要求也越来越高,低电压穿越技术(LVRT)就是其中一项重要指标。
With the proportion increasing of wind power generation in power grid, the power grid demand for increasingly high to wind turbine. Low-voltage through technology (LVRT) is one important indicator.
以某地区电网为例进行仿真计算,并提出了一种确定风电机组低电压穿越参数与要求的方法。
The simulation of a certain domestic 220kV power grid is implemented and a method to decide the LVRT parameters of wind turbine generator and requirement is proposed.
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