Transient stability impact of large-scale photovoltaic system on electric power grids

S. Refaat, H. Abu-Rub, Amira Mohamed
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引用次数: 3

Abstract

Transient stability studies are the key for providing secured operating configurations in power-grid networks. Penetration of a large-scale photovoltaic energy into an existing power grid is expected to highly increase, which will affect operational characteristics. This paper investigates transient stability analysis and the impact of large scale grid-connected photovoltaic (PV) system on electric power-grid networks. Three different scenarios, with their relevant dynamic models with centralized PV farm, are considered at medium voltage level without voltage regulation capabilities. Conducted simulation results show the impact of increased PV penetration on both steady state and transient stability performance. Results in this paper are conducted using a power system software for the design, simulation, operation, and automation of power network and large scale photovoltaic system.
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大型光伏系统对电网暂态稳定的影响
暂态稳定性研究是提供电网安全运行配置的关键。大规模光伏能源对现有电网的渗透预计将大幅增加,这将影响运行特性。本文研究了大型光伏并网系统的暂态稳定性分析及对电网的影响。在不具备电压调节能力的中压水平下,考虑三种不同的集中式光伏电站场景及其相关的动态模型。仿真结果表明,PV侵彻量的增加对稳态和暂态稳定性能都有影响。本文利用电力系统软件对电网和大型光伏系统进行了设计、仿真、运行和自动化。
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