Security constrained decentralized peer-to-peer transactive energy trading in distribution system

Peer-to-Peer (P2P), Transactive Energy (TE) and Community Self-Consumption (CSC) are exciting energy generation and use models, offering several opportunities for prosumers, micro-grids and services to the grid; however, they require numerous components to function efficiently. Various hardware devices are required to transmit data and control the generation and consumption equipment, whereas software is needed to use the gathered information to monitor and manage the hardware and energy trading. Data can be gathered from a variety of origins from within the grid and external sources; however, these data must be well-structured and consistent to be useful. This paper sets out to gather information regarding the hardware, software and data from the several archetypes available, focusing on existing projects and trials in these areas to see what the most-common hardware, software and data components are. The result presents a concise overview of the hardware, software and data-related topics and structures within the P2P, TE and CSC energy generation and use models.

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Peer-to-Peer Energy Trading and Transactive Energy

10.1007/978-3-030-85716-5_14 ◽

2021 ◽

pp. 135-141

Author(s):

Gerald R. Gray

Keyword(s):

Peer To Peer ◽

Energy Trading ◽

Transactive Energy

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Privacy-Preserving Peer-to-Peer Energy Trading in Blockchain-Enabled Smart Grids Using Functional Encryption

Energies ◽

10.3390/en13061321 ◽

2020 ◽

Vol 13 (6) ◽

pp. 1321 ◽

Cited By ~ 4

Author(s):

Ye-Byoul Son ◽

Jong-Hyuk Im ◽

Hee-Yong Kwon ◽

Seong-Yun Jeon ◽

Mun-Kyu Lee

Keyword(s):

Distribution System ◽

Smart Grids ◽

Renewable Energy Sources ◽

Peer To Peer ◽

Smart Contracts ◽

Functional Encryption ◽

Smart Meters ◽

Trade Surplus ◽

Energy Trading ◽

Blockchain Technology

Advanced smart grid technologies enable energy prosumers to trade surplus energy from their distributed renewable energy sources with other peer prosumers through peer-to-peer (P2P) energy trading. In many previous works, P2P energy trading was facilitated by blockchain technology through blockchain’s distributive nature and capacity to run smart contracts. However, the feature that all the data and transactions on a blockchain are visible to all blockchain nodes may significantly threaten the privacy of the parties participating in P2P energy trading. There are many previous works that have attempted to mitigate this problem. However, all these works focused on the anonymity of participants but did not protect the data and transactions. To address this issue, we propose a P2P energy trading system on a blockchain where all bids are encrypted and peer matching is performed on the encrypted bids by a functional encryption-based smart contract. The system guarantees that the information encoded in the encrypted bids is protected, but the peer matching transactions are performed by the nodes in a publicly verifiable manner through smart contracts. We verify the feasibility of the proposed system by implementing a prototype composed of smart meters, a distribution system operator (DSO) server, and private Ethereum blockchain.

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