Increasing photovoltaic self-consumption with game theory and blockchain

Matthieu  Stephant; Dhaker  Abbes; Kahina  Hassam-Ouar; Antoine  Labrunie; Benoît  Robyns

doi:10.4108/eai.27-10-2020.166770

Increasing photovoltaic self-consumption with game theory and blockchain

Authors

Matthieu Stephant University of Lille
Dhaker Abbes University of Lille
Kahina Hassam-Ouar Health Effects Institute
Antoine Labrunie Greenbirdie
Benoît Robyns University of Lille

DOI:

https://doi.org/10.4108/eai.27-10-2020.166770

Keywords:

Photovoltaic self-consumption, Game theory, Blockchain, Energy communities

Abstract

INTRODUCTION: This paper presents a distributed approach to optimise self-consumption on a local energy community containing photovoltaic generators, electric vehicles, loads and a storage system. OBJECTIVES: The goal is to maximise energy sharing between users while preserving the indivual objectives of each user. METHODS: Game theory is employed to model users’ behavior and preferences. A distributed algorithm is used to solve the optimisation problem. In addition, a physical model of the grid is built to verify if the solutions respect grid constraints. Finally, a private blockchain environnement is deployed to concretely implement this distributed framework with a smart contract. RESULTS: It is shown that the proposed approach effectively leads to an increase of self-consumption rate on the local grid. CONCLUSION: The proposed distributed framework, combining game theory and blockchain, shows real potential to improve energy sharing on energy communities.

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Published

27-10-2020

How to Cite

Stephant M, Abbes D, Hassam-Ouar K, Labrunie A, Robyns B. Increasing photovoltaic self-consumption with game theory and blockchain. EAI Endorsed Trans Energy Web [Internet]. 2020 Oct. 27 [cited 2024 Nov. 25];8(34):e1. Available from: https://publications.eai.eu/index.php/ew/article/view/784

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Issue

Vol. 8 No. 34 (2021): EAI Endorsed Transactions on Energy Web

Section

Research articles

License

This work is licensed under a Creative Commons Attribution 3.0 Unported License.

This is an open-access article distributed under the terms of the Creative Commons Attribution CC BY 3.0 license, which permits unlimited use, distribution, and reproduction in any medium so long as the original work is properly cited.