Designing an Active House deployment architecture for residential electricity customers' active interaction with the smart grid

2011 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies Pub Date : 2011-12-01 DOI:10.1109/ISGTEurope.2011.6162807

J. Rossebø, P. Stoll, G. Bag, Larisa Rizvanovic, Mikael Åkerholm

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引用次数: 9

Abstract

The increased focus on reduction of greenhouse gas emissions can be achieved in part by interactively integrating residential electricity production from renewable resources while giving customers incentives to shift and reduce electricity consumption during times of production with high CO2 emissions. In this paper we present the Active House deployment architecture in the smart grid, which has been designed based on open standards. Instrumental to the design of the deployment architecture are the Royal Seaport Smart Grid sustainability and environmental requirements; the impact of these requirements on the Active House deployment architecture is discussed. We discuss the standards of relevance for the Active House project including information on ongoing standards work. We demonstrate the proof-of-concept of the applicability of the architectural solution by referring to the results of an industrial demonstrator that was exhibited at the ELFACK congress in May, 2011.

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为住宅用电用户与智能电网的主动交互设计一种主动住宅部署架构

增加对减少温室气体排放的关注，在一定程度上可以通过互动整合可再生资源的住宅电力生产来实现，同时鼓励客户在二氧化碳排放高的生产期间转移和减少电力消耗。本文提出了基于开放标准设计的智能电网有源住宅部署体系结构。皇家海港智能电网的可持续性和环境要求有助于部署架构的设计;讨论了这些需求对Active House部署架构的影响。我们讨论了与Active House项目相关的标准，包括正在进行的标准工作的信息。我们通过参考2011年5月在ELFACK大会上展出的工业演示器的结果，演示了架构解决方案适用性的概念验证。

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2011 2nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies

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