IEEE Access (Jan 2023)

Integrating Peer-to-Peer Energy Trading and Flexibility Market With Self-Sovereign Identity for Decentralized Energy Dispatch and Congestion Management

  • Maximilian Kilthau,
  • Martin Asman,
  • Alexandra Karmann,
  • Ghayathri Suriyamoorthy,
  • Jan-Philip Beck,
  • Vincenz Regener,
  • Christian Derksen,
  • Nils Loose,
  • Moritz Volkmann,
  • Shashank Tripathi,
  • Felix Gehlhoff,
  • Kamil Korotkiewicz,
  • Philippe Steinbusch,
  • Volker Skwarek,
  • Markus Zdrallek,
  • Alexander Fay

DOI
https://doi.org/10.1109/ACCESS.2023.3344855
Journal volume & issue
Vol. 11
pp. 145395 – 145420

Abstract

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Addressing the trends of digitalization, decentralization, democratization, and decarbonization, local peer-to-peer (P2P) markets have the potential to significantly accelerate decarbonization at the communal level. However, due to an increase in the number of energy consumers, such as electric vehicles or heat pumps, grid congestion can occur since actual low-voltage grids are not designed to transmit large loads. This paper introduces a novel concept for a platform to combine the advantages of P2P trading with the need for secure, automated low-voltage grid control, ensuring effective congestion management. Therefore, a dual local energy market has been developed, comprising a P2P energy market and a flexibility market with the latter ensures preventively managing congestion. Furthermore, mechanisms exist to provide curative, real-time congestion management. Additionally, the platform empowers prosumers, i.e. end users that produce and consume electrical energy, with intelligent market strategies to maximize their financial outcomes by participating in both markets. To provide a secure trading mechanism, the novel concept of Self-Sovereign-Identity is integrated into the platform. The platform is based on a multi-agent-system developed using the Java Development Environment (JADE) in conjunction with the Energy Option Model (EOM) for the effective modelling of energy systems. Tested in a smart grid laboratory at the University of Wuppertal, the platform provides financial gains for prosumers and effectively manages current- and voltage-related grid congestions.

Keywords