Large-Scale Adoption of Self-Synchronized Universal Droop Controller-Based Inverters to Enable Ancillary Services for Different Modes of Distribution System Operations

Laura Arce, M. Chamana, I. Osman, B. Ren, Qing-Chang Zhong, S. Bayne
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Abstract

This work proposes the large-scale adoption of self-synchronized universal droop controller (SUDC)-based inverters to enable ancillary services for different modes of distribution system operations. The IEEE 123 bus system was modeled on a real-time simulator to study the performance of large-scale adoption of SUDC inverters in a distribution system. The resulting data collected shows that the voltage and the frequency were regulated within ranges, such as less than 5% for voltage and less than 0.5% for frequency, under different load variations and grid operations. Also, the black start was achieved within 0.4 s without any voltage overshoot. Through the simulation and validation on a small microgrid and the IEEE 123 bus distribution system, it can be concluded that the SUDC was successfully adopted to regulate the voltage and the frequency within the given ranges, and black start achieved within 1 s without voltage overshoot for different modes of distribution system operations.
大规模采用基于自同步通用下垂控制器的逆变器,为不同的配电系统运行模式提供辅助服务
这项工作提出大规模采用基于自同步通用下垂控制器(SUDC)的逆变器,为不同模式的配电系统运行提供辅助服务。为了研究大规模采用SUDC逆变器在配电系统中的性能,在实时仿真机上对IEEE 123总线系统进行了建模。结果表明,在不同的负荷变化和电网运行情况下,电压和频率都在一定范围内调节,如电压小于5%,频率小于0.5%。此外,在0.4 s内实现了黑启动,没有任何电压超调。通过对一个小型微电网和IEEE 123总线配电系统的仿真验证,可以得出结论:对于配电系统的不同运行模式,采用SUDC在给定范围内成功地调节了电压和频率,并在1 s内实现了无电压超调的黑启动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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