高渗透光伏发电系统同步发电机暂态稳定性评估

M. Yagami, T. Hasegawa, J. Tamura
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引用次数: 8

摘要

随着电力系统中光伏发电容量的增加,同步发电机的容量需要相对减小。这将导致较低的系统惯性和较高的发电机电抗,从而可能对发电机暂态稳定性产生负面影响。特别是,当相当数量的光伏系统在电压暂降期间同时断开时,对暂态稳定性的影响可能会变得更加严重。本文采用数值模拟的方法对具有显著光伏渗透的电力系统中的发电机暂态稳定性进行了评估。为了从各个角度评估影响,我们考虑了PV渗透水平、各种电源(逆变器或旋转机)以及LVRT能力的存在等仿真参数。采用PSCAD/EMTDC软件进行仿真。
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Transient stability assessment of synchronous generator in power system with high-penetration photovoltaics
As photovoltaic (PV) capacity in power system increases, the capacity of synchronous generator needs to be reduced relatively. This leads to the lower system inertia and the higher generator reactance, and hence the generator transient stability may negatively be affected. In particular, the impact on the transient stability may become more serious when the considerable amounts of PV systems are disconnected simultaneously during voltage sag. In this work, the generator transient stability in the power system with significant PV penetration is assessed by a numerical simulation. In order to assess the impact from various angles, simulation parameters such as levels of PV penetration, variety of power sources (inverter or rotational machine), and existence of LVRT capability are considered. The simulation is performed by using PSCAD/EMTDC software.
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