Blackstart and Restoration of 100% Renewable Power Systems with Grid Forming Converters

2022 IEEE Power & Energy Society General Meeting (PESGM) Pub Date : 2022-07-17 DOI:10.1109/PESGM48719.2022.9916718

Stavros Konstantinopoulos, D. Ramasubramanian, E. Farantatos, V. Singhvi

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Abstract

Blackstart (BS) is one of the most challenging processes in power system operations planning. The availability of resources, determining the order of element energization while adhering to the grid's operational constraints, makes this problem extremely complex. This task can become even more daunting in the future, where the majority of the available generation will be converter-based. In this work, we demonstrate the energization process of the IEEE 14-bus system with 100% renewable penetration, by utilizing grid-forming converter-enabled PhotoVoltaic (PV) plants. This work demonstrates a BS sequence, driven by grid-forming enabled PV plants in a network comprised of passive/motor loads and a grid-following plant. The utilized system is implemented in PSCAD. The focus of this work is to highlight the most impactful steps of this process and demonstrate that the utilized controls keep the system within acceptable operational bounds. In addition, the impact of droop control tuning on synchronization and frequency response is discussed and finally, the transient stability and voltage ride-through capability of the system following a severe fault is presented.

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带并网变流器的100%可再生能源系统的黑启动与恢复

黑启动是电力系统运行规划中最具挑战性的过程之一。资源的可用性决定了元素通电的顺序，同时又要遵守网格的操作约束，这使得这个问题变得极其复杂。这项任务在未来可能变得更加艰巨，因为大多数可用的发电将是基于转换器的。在这项工作中，我们展示了100%可再生能源渗透的IEEE 14总线系统的通电过程，利用并网转换器启用的光伏(PV)工厂。这项工作演示了一个BS序列，由电网形成的光伏电站驱动，该电站由被动/电机负载和电网跟随电站组成。所使用的系统在PSCAD中实现。这项工作的重点是突出该过程中最具影响力的步骤，并证明所利用的控制将系统保持在可接受的操作范围内。此外，还讨论了下垂控制整定对同步和频率响应的影响，最后给出了系统在严重故障后的暂态稳定性和电压穿越能力。

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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2022 IEEE Power & Energy Society General Meeting (PESGM)

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