An architecture for the monitoring of microgrid operation

2016 IEEE Workshop on Environmental, Energy, and Structural Monitoring Systems (EESMS) Pub Date : 2016-06-13 DOI:10.1109/EESMS.2016.7504809

B. Aluisio, A. Cagnano, E. D. Tuglie, M. Dicorato, G. Forte, M. Trovato

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引用次数: 6

Abstract

The operation of different energy sources in a MicroGrid (MG) has to be monitored and controlled by means of the Energy Management Systems (EMS) both in the grid-connected and islanded modes. In the first case, the MG can be seen as a single controllable unit by the grid operator whereas in the islanded mode the successful balance between internal load and planned generation is also required. In this paper, the architecture of an experimental MG is described. Modbus TCP/IP is used as the communication protocol in the MG to receive data and send commands to different components within the system, and monitoring by means of cabled signals is performed. Furthermore, in order to efficiently cater for electric and thermal demand, a central EMS is aimed to evaluate different procedures for the day-ahead scheduling of a MG. In particular, operational planning is proposed and applied to a selected configuration of a testbed facility at Politecnico di Bari. Grid-connected as well as stand-alone configurations are tested.

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微电网运行监测体系结构

微电网中不同能源的运行必须通过并网模式和孤岛模式的能源管理系统(EMS)进行监测和控制。在第一种情况下，电网运营商可以将MG视为单个可控单元，而在孤岛模式下，内部负载和计划发电之间的成功平衡也是必需的。本文描述了一种实验用MG的结构。MG采用Modbus TCP/IP作为通信协议，接收数据，向系统内各部件发送命令，并通过电缆信号进行监控。此外，为了有效地满足电力和热需求，中央EMS旨在评估MG提前调度的不同程序。特别提出了业务规划，并将其应用于巴里理工大学试验台设施的选定配置。并网配置和独立配置都进行了测试。

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

2016 IEEE Workshop on Environmental, Energy, and Structural Monitoring Systems (EESMS)

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