Proceedings of the 5th Management Science Informatization and Economic Innovation Development Conference, MSIEID 2023, December 8–10, 2023, Guangzhou, China

Research Article

Research on Distributed Green Electricity Transaction and Management of Power System Based on Blockchain Technology

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  • @INPROCEEDINGS{10.4108/eai.8-12-2023.2344728,
        author={Zanyu  Hou and Yan  Guan and Yang  Nan and Gongyu  Wei},
        title={Research on Distributed Green Electricity Transaction and Management of Power System Based on Blockchain Technology},
        proceedings={Proceedings of the 5th Management Science Informatization and Economic Innovation Development Conference, MSIEID 2023, December 8--10, 2023, Guangzhou, China},
        publisher={EAI},
        proceedings_a={MSIEID},
        year={2024},
        month={4},
        keywords={blockchain technology; power system; distributed; green electricity transaction; green electricity management},
        doi={10.4108/eai.8-12-2023.2344728}
    }
    
  • Zanyu Hou
    Yan Guan
    Yang Nan
    Gongyu Wei
    Year: 2024
    Research on Distributed Green Electricity Transaction and Management of Power System Based on Blockchain Technology
    MSIEID
    EAI
    DOI: 10.4108/eai.8-12-2023.2344728
Zanyu Hou1, Yan Guan1, Yang Nan2, Gongyu Wei3,*
  • 1: State Grid Liaoning Electric Power Co., Ltd.
  • 2: State Grid Dalian Power Supply Company
  • 3: Beijing Tsintergy Technology Co., Ltd.
*Contact email: weigy@tsintergy.com

Abstract

The establishment of scientific and efficient distributed green electricity trading and management mode is an important means to improve the production level of the power system. The application of blockchain technology in the distributed green electricity trading and management in the power system can promote the further construction and development of the power system toward the dual-carbon goal. This paper mainly analyzes the application advantage of block chain technology in the power system, build based on block chain technology power system distributed green electricity trading and management platform, and in the perspective of the seller market and seller's market quotation and transaction management, finally establish the game Nash equilibrium model, under this model using adaptive iterative algorithm to calculate the best interests of the market, in order to provide reference for the power system green electricity trading market transaction management.