Abstract
Traditional distributed energy transactions mainly provide trading contracts by using centralized trading platforms, and provide power supply and transmission by cooperating with power grid. There are problems such as high service cost, low transaction efficiency, and lack of user privacy security. This paper puts forward a kind of suitable for distributed energy trading considered Internet fee and risk appetite of bilateral auction trading rules, and consider the risk appetite can avoid the user power purchase price is too low or distributed sell electricity price is too high can’t auction success so as to reach a deal, to ensure efficient distribution of resources and maximize the interests of both sides, Considering that the network fee can make the distributed energy as near as possible to trade, reduce the loss of energy in the transmission process, reduce waste. At the same time, this paper designs a system software architecture suitable for distributed energy transaction, and gives the corresponding complete transaction flow.
This work was supported by Science and Technology Program of State Grid Corporation of China. The program name is “Research and Application of Key Technologies of Distributed Power Trading Based on Blockchain”, and the program number is 5700-202035373A-0-0-00.
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References
Zhao, S., Xu, X., Wu, Z.: Innovative application of blockchain technology in the field of distributed energy trading. Electr. Appliances Energ. Effi. Manage. Technol. 11, 1–10 (2020)
Dorri, A., Hill, A., Kanhere, S., Jurdak, R., Luo, F., Dong, Z.Y.: Peer-to-peer energytrade: A distributed private energy trading platform. In: Proceedings of the 2019 IEEE International Conference on Blockchain and Cryptocurrency (ICBC), Seoul, Korea (South), pp. 61–64 (2019). https://doi.org/10.1109/BLOC.2019.8751268
Lu, J., Wang, Z.G., Yang, Q., et al.: Research on game model of photovoltaic microgrid transaction based on blockchain. Electr. Meas. Instrum. 57(11), 80–86 (2020)
Qi, F., Chen, L., Zoo, L., Hou, X.Y.: Distributed microgrid direct transaction system and its security protocol. Comput. Appl. Softw. 37(5), 327–333 (2020)
Dong, L., Chen, H., Pu, T.J., et al.: Multi-time scale dynamic optimal dispatch of active distribution network based on model predictive control. Proc. CSEE 36(17), 4609–4617 (2016)
Gremolata, D., Matamoros, J.: Distributed energy trading: The multiple-microgrid case. IEEE Trans. Industr. Electron. 62(4), 2551–2559 (2015)
Khorasani, J., Mashhadi, H.R.: A risk-based bidding strategy in an electricity multimarket. In: Proceedings of the 2011 19th Iranian Conference on Electrical Engineering, p. 1. Tehran, Iran (2011)
Zhao, X., Wei, C.: Grid resource allocation based on multi-unit continuous two-way auction based on risk strategy. Comput. Appl. 29(02), 602–605+610 (2009)
Xiao, J., Liu, R., Jing, Z., He, Y.: Analysis of improved transmission overnetwork pricing mechanism in UK. China Electr. Power 52(02), 53–60 (2019)
Zhong, X., Lo, K.L., Sun, J.: Research on the pricing method of transmission price. Electr. Power Equipment (06), 46–50 (2008)
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Liu, C., Xia, X., Yan, Y., Ma, J., Qi, F. (2022). Research on Distributed Energy Trading Mode and Mechanism Based on Blockchain. In: Sun, S., Hong, T., Yu, P., Zou, J. (eds) Signal and Information Processing, Networking and Computers. ICSINC 2021. Lecture Notes in Electrical Engineering, vol 895. Springer, Singapore. https://doi.org/10.1007/978-981-19-4775-9_43
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DOI: https://doi.org/10.1007/978-981-19-4775-9_43
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