Real-Time Hardware-in-the-Loop Testbed to Evaluate FLISR Implemented with OpenFMB

2022 IEEE 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG) Pub Date : 2022-06-26 DOI:10.1109/PEDG54999.2022.9923270

P.E. Neil Shepard, Aditya Sundararajan, Maximiliano F. Ferrari, B. Ollis

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Abstract

With the increasing complexity of the distribution smart grid architecture, algorithms such as the fault location, isolation, and service restoration (FLISR) scheme rely on robust communications that are resilient to natural and man-made adverse conditions and exhibit robustness. Existing communications infrastructure for information exchange are centralized at the distribution management system, with very little autonomy or intelligence at the grid-edge. As a first step towards achieving grid-edge self-healing, this paper aims to bridge this shortcoming by implementing a centrally coordinated rules-based FLISR scheme and integrating it with Open Field Message Bus (OpenFMB), which is a flexible publish-subscribe architecture with the potential to enable point-to-multipoint communications and is more robust and resilient to natural and man-made adverse conditions. A proof of concept is developed to validate the centrally coordinated FLISR and OpenFMB mounted on an SEL-3360 computer that interacts with a simple feeder network of five SEL-651R relays, an SEL-3530 RTAC, and a hardware-in-the-loop testbed. Results demonstrate the efficacy of this approach in enabling direct, low-latency information exchange. OpenFMB’s publish-subscribe data model also opens new ways to enable grid-edge interoperability among devices of different vendors interacting with different protocols.

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利用OpenFMB实现的FLISR实时硬件在环测试平台评估

随着配电智能电网体系结构的日益复杂，故障定位、隔离和服务恢复(FLISR)等算法依赖于可靠的通信，能够适应自然和人为的不利条件，具有鲁棒性。用于信息交换的现有通信基础设施集中在分配管理系统中，在电网边缘具有很少的自主权或智能。作为实现网格边缘自愈的第一步，本文旨在通过实施一种集中协调的基于规则的FLISR方案并将其与开放现场消息总线(OpenFMB)集成来弥补这一缺点，OpenFMB是一种灵活的发布-订阅架构，具有实现点对多点通信的潜力，并且对自然和人为不利条件更具鲁棒性和弹性。开发了一个概念验证，以验证安装在SEL-3360计算机上的集中协调FLISR和OpenFMB，该计算机与五个SEL-651R继电器，一个SEL-3530 RTAC和一个硬件在环测试平台的简单馈线网络进行交互。结果证明了这种方法在实现直接、低延迟的信息交换方面的有效性。OpenFMB的发布-订阅数据模型还开辟了新的途径，使不同供应商的设备与不同协议交互之间的网格边缘互操作性成为可能。

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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来源期刊

2022 IEEE 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG)

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