Blockchain-Based and Multi-Layered Electricity Imbalance Settlement Architecture

2018 IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm) Pub Date : 2018-10-01 DOI:10.1109/SmartGridComm.2018.8587577

Pietro Danzi, Sarah Hambridge, Č. Stefanović, P. Popovski

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引用次数: 17

Abstract

In the power grid, the Balance Responsible Parties (BRPs) purchase energy based on a forecast of the user consumption. The forecasts are imperfect, and the corrections of their real-time deviations are managed by a System Operator (SO), which charges the BRPs for the procured imbalances. Flexible consumers, associated with a BRP, can be involved in a demand response (DR) program to reduce the imbalance costs. However, running the DR program requires the BRP to invest resources in the infrastructure and increases its operating costs. To limit the intervention of BRP, we implement the DR via a blockchain smart contract. Moreover, to reduce the delay of publication of the imbalance price, caused by the inefficient accounting process of the current balancing markets, a second blockchain is adopted at the SO layer, procuring a fast and auditable credit settlements. The feasibility of the proposed architecture is evaluated over an Ethereum blockchain platform. The results show that block chains can enable a high automation of the balancing market, by providing (i) the implementation of aggregators with low operating cost and (ii) the timely and transparent access to the balancing information, thus fostering new business models for the BRPs.

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基于区块链的多层次电力失衡解决架构

在电网中，平衡责任方(brp)根据对用户消费的预测来购买能源。预测是不完美的，对实时偏差的修正是由系统操作员(SO)管理的，系统操作员(SO)对获得的不平衡向brp收费。与BRP相关联的灵活消费者可以参与需求响应(DR)计划，以减少不平衡成本。然而，运行DR计划需要BRP在基础设施上投入资源，并增加其运营成本。为了限制BRP的干预，我们通过区块链智能合约实现DR。此外，为了减少由当前平衡市场的低效会计流程造成的不平衡价格公布的延迟，在SO层采用了第二个区块链，以获得快速且可审计的信用结算。在以太坊区块链平台上评估了所提议架构的可行性。结果表明，通过提供(i)低运营成本的聚合器的实施和(ii)对平衡信息的及时和透明的访问，区块链可以实现平衡市场的高度自动化，从而为brp培育新的商业模式。

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

2018 IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm)

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