Adaptive Day-Ahead Prediction of Resilient Power Distribution Network Partitions

2021 IEEE Green Technologies Conference (GreenTech) Pub Date : 2021-01-07 DOI:10.1109/GreenTech48523.2021.00080

Chinmay Shah, R. Wies

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引用次数: 5

Abstract

The conventional power distribution network is being transformed drastically due to high penetration of renewable energy sources (RES) and energy storage. The optimal scheduling and dispatch is important to better harness the energy from intermittent RES. Traditional centralized optimization techniques limit the size of the problem and hence distributed techniques are adopted. The distributed optimization technique partitions the power distribution network into sub-networks which solves the local sub problem and exchanges information with the neighboring sub-networks for the global update. This paper presents an adaptive spectral graph partitioning algorithm based on vertex migration while maintaining computational load balanced for synchronization, active power balance and sub-network resiliency. The parameters that define the resiliency metrics of power distribution networks are discussed and leveraged for better operation of sub-networks in grid connected mode as well as islanded mode. The adaptive partition of the IEEE 123-bus network into resilient sub-networks is demonstrated in this paper.

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弹性配电网分区的自适应日前预测

由于可再生能源(RES)和储能的高度普及，传统的配电网络正在发生巨大的变化。为了更好地利用间歇性可再生能源，最优调度至关重要，传统的集中式优化技术限制了问题的规模，因此采用分布式优化技术。分布式优化技术将配电网划分成多个子网络，既解决了局部子网络问题，又与邻近的子网络交换信息，实现全局更新。提出了一种基于顶点迁移的自适应谱图划分算法，同时保持计算负载均衡，兼顾同步、有功均衡和子网弹性。讨论了定义配电网络弹性指标的参数，并利用这些参数使并网模式和孤岛模式下的子网络更好地运行。本文讨论了IEEE 123总线网络自适应划分为弹性子网络的方法。

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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2021 IEEE Green Technologies Conference (GreenTech)

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