不同密度电网中综合惯性函数的算法研究

V. Rudnik
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引用次数: 0

摘要

利用该算法合成惯性(SI)的能力是可再生能源发电机组通过电源变换器(GUPC)连接到电网的最重要的特性之一。通过使用SI算法,有机会增加这种植物的惯性和阻尼特性。SI算法的有效性取决于市电频率输入值,而市电频率输入值由锁相环(PLL)构成,是电源变换器控制系统的重要组成部分。然而,当GUPC安装在弱电网络中时,锁相环的工作可能导致不同频率的振荡,从而对SI算法的性能产生不利影响。研究表明,光伏电站(PV)控制系统中的锁相环可以影响SI算法的性能,但这种影响的性质取决于电网密度,可以是正的,也可以是负的。对大型电力系统试验EPS的影响也得到了证实。
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STUDY OF ALGORITHM SYNTHETIC INERTIA FUNCTIONING IN ELECTRIC NETWORKS OFDIFFERENT DENSITY
The ability to use the algorithm synthetic inertia (SI) is one of the most important properties of renewable energy sources (RES) generating units connected to the network via a power converter (GUPC). Through the useof SI algorithm there is an opportunity to increase the inertia and damping properties of such plants. The effectiveness of the SI algorithm depends on the mains frequency input value, which is formed by the phase locked loop (PLL), which is an integral part of the power converter control system. However, the operation of the PLL can lead to oscillations with different frequencies when the GUPC is installed in weak electrical networks and, accordingly, adversely affect the performance of the SI algorithm. The studies have shown that the PLL in the photovoltaic plant (PV) control system allows to influence the performance of the SI algorithm, but the nature of this influence depends on the electric network density and can be positive or negative. The influence obtained on the test EPS is also confirmed for the power system of large-scale.
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