Demonstrating Distribution System Resiliency through Grid-Edge Microgrids, on a Multi-Site Networked Hardware-in-Loop Platform

2022 IEEE 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG) Pub Date : 2022-06-26 DOI:10.1109/PEDG54999.2022.9923135

Prithwiraj Roy Chowdhury, Y. Velaga, S. Essakiappan, K. Prabakar, M. Manjrekar, K. Schneider, Stuart Laval

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引用次数: 1

Abstract

With the increasing penetration of Distributed Energy Resources (DERs) at the grid-edge, power systems include more energy storage, remote switches, relays, voltage regulators, and other intelligent electronic devices (IED). Effective control of these grid-edge devices by using Advanced Distribution Management Systems (ADMS) can yield substantial improvements to the resiliency and power quality of distribution systems. In this paper, improvements to the resiliency of a distribution system are demonstrated using a multi-site evaluation environment consisting of a real-time Hardware-in-Loop (HIL) setup in which DERs and other IEDs are modeled; and an ADMS which monitors and is able to control the distribution system assets. The HIL model and the ADMS are located 2400 km away, with communication between the sites enabled by a data manager using Distributed Network Protocol 3 (DNP3), demonstrating the system’s capabilities even over long distances. After a simulated transmission system failure in the HIL demonstration setup, DERs and other devices are operated to restore critical loads and node voltage profile (to within the ‘nominal ±5%’ band) in the distribution system.

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在多站点网络硬件在环平台上，通过电网边缘微电网演示配电系统弹性

随着分布式能源(DERs)在电网边缘的日益普及，电力系统包括更多的储能、远程开关、继电器、电压调节器和其他智能电子设备(IED)。利用先进的配电管理系统(ADMS)对这些电网边缘设备进行有效控制，可以大大提高配电系统的弹性和电能质量。在本文中，使用一个多站点评估环境，包括实时硬件在环(HIL)设置，其中DERs和其他ied建模，演示了配电系统弹性的改进;以及监控并能够控制配电系统资产的ADMS。HIL模型和ADMS位于2400公里之外，站点之间的通信由使用分布式网络协议3 (DNP3)的数据管理器实现，证明了系统即使在长距离上也具有能力。在HIL演示装置中模拟传输系统故障后，运行DERs和其他设备以恢复配电系统中的临界负载和节点电压分布(在“标称±5%”范围内)。

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 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG)

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