低压电网电压调节的电力硬件在环及辅助服务

S. Oyegoke, Y. Habtay, Marios Maniatopoulos, P. Kotsampopoulos, Simeon Keates
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引用次数: 3

摘要

通过传统发电机发电在满足需求方面发挥着主要作用,然而,趋势正在转向利用分布式可再生能源。分布式能源(DER)成为局部支持负荷的一种手段。由于DERs通常是间歇性的,因此存在与这些资源的高度渗透相关的挑战,这是电网运营商所关注的。与此技术相关的还有机会,因为连接der的逆变器可以通过在电网中执行无功补偿来支持电压调节。本文探讨了利用下垂控制的DERs作为无功资源的概念。由于有功发电量随日照量的变化而波动,可以利用逆变器的备用容量提供有效的无功补偿,支持电网运行。本文采用电源硬件在环(PHIL)仿真,其中单相光伏逆变器硬件与其他三个实时仿真逆变器并联运行,以提供辅助服务。结果表明,有载分接变压器(OLTC)的开关步骤减少,从而提高了系统的整体性能。
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Power Hardware In the Loop and Ancillary Service for Voltage Regulation in Low Voltage Grid
Power production via traditional generators play a major role to meet demand, however, the trend is shifting towards utilization of distributed renewable sources. Distributed Energy Resources (DER) becomes a means to support loads locally. As DERs are typically intermittent sources, there are challenges associated with the high level of penetration of these resources that are of concern to grid operators. There are also opportunities associated with this technology as the inverters connecting the DERs could support voltage regulation by performing reactive power compensation in the grid.The concept of utilizing droop controlled DERs as reactive power resources is explored in this paper. As the active power production fluctuates with solar insolation, the spare capacity of the inverters could be employed to provide effective reactive power compensation to support the grid.In this paper, Power Hardware in the Loop (PHIL) simulation was employed where a single-phase PV inverter hardware is operated in parallel with three other real-time simulated inverters to deliver ancillary services. The results have shown that the switching steps of the On-Load Tap changer transformer (OLTC) were reduced, thus improving overall system performance.
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