Layered-based approach to virtual storage for smart power systems

IISA 2013 Pub Date : 2013-07-10 DOI:10.1109/IISA.2013.6623732

M. Alamaniotis, L. Tsoukalas

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引用次数: 9

Abstract

The advent of data networks and the plethora of internet-based computing and control approaches have stimulated research on novel technologies for the intelligent management of electric power transmission and distribution networks (the “grid”). Such couplings of the conventional power infrastructure with information technologies is known under the term smart power grid. The Consortium of Intelligent Management of the Grid (CIMEG) has proposed a further evolution of a smart power grid to what is called an Energy Internet, which couples the basic principles and protocols of data networks with power flow. One of the key principles of the Energy Internet is the use of virtual buffers as large scale energy storage mechanisms. In this paper the idea of virtual buffer is extended into a multi-layer architecture and its main operational principles are introduced. Energy layers are controlled by intelligent agents, which bring power utilization to a higher level than that of a single user. Furthermore, they leverage the idea of virtual buffers and provide more stability in the power flow. The operability of layered based virtual storage in energy distribution and for grid stability is demonstrated through an illustrative example, where advantages and disadvantages in building future smart power systems are examined.

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基于分层的智能电力系统虚拟存储方法

数据网络的出现以及大量基于互联网的计算和控制方法刺激了对电力传输和分配网络(“电网”)智能管理新技术的研究。传统电力基础设施与信息技术的这种耦合被称为智能电网。电网智能管理联盟(CIMEG)提出了智能电网的进一步发展，即所谓的能源互联网，它将数据网络的基本原理和协议与潮流相结合。能源互联网的关键原则之一是使用虚拟缓冲区作为大规模的能源存储机制。本文将虚拟缓冲区的思想扩展到一个多层体系结构，并介绍了它的主要工作原理。能量层由智能体控制，使电力利用率比单个用户更高。此外，它们利用了虚拟缓冲器的思想，并在功率流中提供了更多的稳定性。通过一个实例说明了分层虚拟存储在能量分配和电网稳定方面的可操作性，并分析了构建未来智能电力系统的优缺点。

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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IISA 2013

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