Design and evaluation of architectural framework for a secured local energy market model based on distributed ledger technologies

Godwin C. Okwuibe, Thomas Brenner, Muhammad Yahya, Peter Tzscheutschler, Thomas Hamacher

Research output: Contribution to journalArticlepeer-review

Abstract

Blockchain-based local energy markets have been proposed in recent years to provide a market platform for local prosumers and consumers to exchange their energy in a secured, transparent and tamper-proof manner. However, there are still some challenges regarding the scalability of blockchain to handle high computational models/algorithms/contracts as this may result in the extension of the block size of the blockchain network and very high gas costs. Also, there is still the problem of transparency as regards General Data Protection Regulation because the full visibility of data in the blockchain may collide with privacy in some settings. A framework is presented that combines the on-chain features of blockchain with trusted execution environments to develop a transparent, tamper-resistant, low operation cost, scalable and resilient hybrid model architecture for local electricity trading. The model architecture was simulated in German community case scenarios for a varying number of prosumers and consumers to show its applicability. The simulation results show that the model was able to solve the scalability problem of blockchain for the local energy market application as the market model is run in a trusted environment where the integrity of the model can be verified by the participants.

Original languageEnglish
JournalIET Energy Systems Integration
DOIs
StateAccepted/In press - 2024

Keywords

  • distributed power generation
  • power markets
  • smart power grids

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