Towards Harmonious Decentralization of Energy Systems: A Vision of Interoperable Peer-to-Peer Energy Markets

TL;DR

This paper proposes a hierarchical, prosumer-centric framework for decentralized energy markets that integrates bottom-up peer-to-peer trading with existing grid operations, enhancing scalability, interoperability, and user empowerment.

Contribution

It introduces a novel hierarchical decision-making framework that harmonizes decentralized peer-to-peer markets with traditional grid operations, emphasizing prosumer benefits and system scalability.

Findings

Enables prosumers to maximize revenue and cost savings.

Ensures compatibility with existing grid technologies and operations.

Addresses scalability and interoperability in decentralized energy markets.

Abstract

We present a hierarchical framework aimed at decentralizing the distribution systems market operations using localized peer-to-peer energy markets. Hierarchically designed decision-making algorithm approaches the power systems market operations from a bottom-up perspective. The three layers of the hierarchical framework operate in orchestration to enable prosumers (the grass-root actors) to maximize their revenues - hence, a prosumer-centric framework. The design of the framework incorporates existing smart grid technologies (Virtual Power Plants, Microgrids, Distributed Energy Resources) and redefine their functional objectives to align them with the decentralization paradigm focused on empowering bottom-up grid operations approach. On one hand, the framework is enabling prosumers with simultaneous access to the buy-sell choices that help them maximize their cost savings while ensuring their consumption patterns and preferences are not being tradeoff as a result of top-down operational decisions. On the other hand, it is designed to operate in harmony with the existing top-down grid operations mechanisms - thereby reducing the potential friction in its adaptation. This marriage of the top-down and bottom-up operational approaches is facilitated through meticulous orchestration of operational timescales. Framework's novel design also incorporates scalability and interoperability considerations, thereby tackling the challenge of decentralization holistically.