Large-scale wind power centralized access to the power grid caused many problems, such as short-circuit current, equipment selec-tion and mode of operation at middle and low voltage side in booster station etc. Through the different wind turbine generator models (dual-fed and direct drive) and single wind turbine generator of different capacity, this paper analyzed the system short-circuit current. Based on wind tur-bines short-circuit PMU recorded wave curve and wind turbine generator model short-circuit simulation curve, this paper proposed an engineer-ing calculation method to calculate the different models and capacity wind turbine generator equivalent subtransient reactance. Combining with the theoretical calculation model of short-circuit current, this paper analyzed the system short-circuit current provided by the single wind farm and wind power centralized station. The result shows that the large-scale wind power centralized access provides the un-neglected short-circuit current for the system.%规模化风电集中接入电网,将对系统提供一定的短路电流,影响设备选型、升压站中低压侧的运行方式等.通过对不同风电机组型号(双馈式和直驱式)及不同容量的单个风电机组对系统提供的短路电流分析,根据风电机组短路PMU录波曲线和风电机组模型短路仿真曲线,提出了一种工程计算方法,计算出不同型号和不同容量的风电机组等值次暂态电抗,并结合短路电流理论计算模型,分析单个风电场以及风电汇集站对系统提供的短路电流,结果表明,规模化风电的集中接入,对系统提供的短路电流不可忽略.
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