A Novel Resilience-Oriented Cellular Grid Formation Approach for Distribution Systems with Behind-the-Meter Distributed Energy Resources

2023 IEEE PES Grid Edge Technologies Conference & Exposition (Grid Edge) Pub Date : 2023-04-10 DOI:10.1109/GridEdge54130.2023.10102719

Utkarsh Kumar, Fei Ding

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Abstract

This paper presents a resilience-oriented cellular grid formation approach to achieve scalable and reconfigurable community microgrid operations for distribution systems with behind-the-meter distributed energy resources. A set of interconnected solar photovoltaics, energy storage systems, and load is termed as a cell, implying a subset of the grid that can operate independently using its own resources. Cells are identified such that each cell inherently has sufficient energy resources to black start and can provide a certain level of backup power for its load under the loss of utility power supply. The proposed cell formation approach builds on a unique self-organizing map-based method (SomRes) to quantify a system’s resilience. Using SomRes and a non-dominated sorting-based genetic algorithm (NSGA-II), a fast and efficient cell formation algorithm is developed to identify cells in a distribution system that are resilient against extreme events. The efficacy of the proposed approach is demonstrated on a numerical model of a real distribution feeder in Colorado, United States.

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具有表后分布式能源的配电系统的一种新的面向弹性的细胞网格形成方法

本文提出了一种面向弹性的蜂窝网格形成方法，以实现具有表后分布式能源的配电系统的可扩展和可重构社区微电网运行。一组相互连接的太阳能光伏、储能系统和负载被称为电池，这意味着电网的一个子集可以使用自己的资源独立运行。对单元进行识别，使每个单元本身具有足够的能量资源进行黑启动，并能在公用电源断电的情况下为其负载提供一定水平的备用电源。提出的细胞形成方法建立在一种独特的基于自组织映射的方法(SomRes)上，以量化系统的弹性。利用SomRes和基于非支配排序的遗传算法(NSGA-II)，开发了一种快速有效的细胞形成算法，用于识别配电系统中具有抗极端事件弹性的细胞。在美国科罗拉多州一个实际配电馈线的数值模型上验证了该方法的有效性。

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2023 IEEE PES Grid Edge Technologies Conference & Exposition (Grid Edge)

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