Mixed Game of Real-time Pricing Based on Block Chain for Power Grid

被引：0

作者：

Li J. ^{[1
]}

Zhou J. ^{[1
]}

He J. ^{[1
]}

机构：

[1] Business School, University of Shanghai for Science and Technology, Yangpu District, Shanghai

来源：

He, Jianjia (hejianjiayan@163.com) | 1600年 / Power System Technology Press卷 / 44期

基金：

中国国家自然科学基金;

关键词：

Block chain; Micro grid; Mixed game; Real-time pricing; Renewable energy;

D O I：

10.13335/j.1000-3673.pst.2019.2578

中图分类号：

学科分类号：

摘要：

As a decentralized database technology, block chain can effectively realize the distributed information communication and common maintenance of the power grid data. Based on the analysis of the mixed game architecture of power system on block chain, this paper improves the utility function of electricity consumption and constructs the master-slave game model of supply and demand which is embedded with cooperative game between power suppliers. Simulation results showed that the decentralized power suppliers can be integrated into a power supply cooperation alliance, which can effectively improve the utilization rate of renewable energy in a micro grid. At the same time, users also participate in the power grid decision-making as independent nodes. The openness and transparency of block chain trading platform information can improve the accuracy of users' electricity decision-making and welfare. The real-time pricing mixed game based on block chain can effectively balance the supply and demand of electricity, increase the welfare on both sides of supply and demand, and improve the utilization rate of renewable energy. © 2020, Power System Technology Press. All right reserved.

引用

页码：4183 / 4191

页数：8

共 23 条

[1] Zhang Li, Gao Yan, Liu Songtao, Et al., Multi-time slots real-time pricing for smart grid with time-coupled constraints, Systems Engineering-Theory & Practice, 39, 10, pp. 2599-2609, (2019)
[2] Zhang Li, Gao Yan, Zhu Hongbo, Et al., Real-time pricing strategy based on uncertainty of power consumption in smart grid, Power System Technology, 43, 10, pp. 3622-3631, (2019)
[3] Tao Li, Gao Yan, Zhu Hongbo, Et al., Optimal scheduling for smart grids with the integration of renewable resources and storage devices, Chinese Journal of Management Science, 27, 2, pp. 150-157, (2019)
[4] Zhao Lin, Gao Yan, Real-time pricing strategy based on alternative energy in smart grid, Journal of University of Shanghai for Science and Technology, 40, 6, pp. 511-518, (2018)
[5] Nakamoto S., Bitcoin: a peer-to-peer electronic cash system, Consulted, (2008)
[6] Tai Xue, Sun Hongbin, Guo Qinglai, Electricity transactions and congestion management based on blockchain in energy internet, Power System Technology, 40, 12, pp. 3630-3638, (2016)
[7] Ping Jian, Chen Sijie, Zhang Ning, Et al., Decentralized transactive mechanism in distribution network based on smart contract, Proceedings of the CSEE, 37, 13, pp. 3682-3690, (2017)
[8] Ning Xiaojing, Zhang Yi, Lin Xiangning, Et al., Block chain analysis of energy based on physics-information-value, Power System Technology, 42, 7, pp. 2312-2323, (2018)
[9] Ma Tiannan, Peng Lilin, Du Ying, Et al., Local multimicro grid market competition game model and solving algorithm under block chain technology, Electric Power Automation Equipment, 38, 5, pp. 191-203, (2018)
[10] Pan Mingming, Liu Lianguang, Ye Yuanyu, Et al., A game-theoretic analysis for customers' load shifting in energy Internet, Power System Technology, 39, 11, pp. 3088-3093, (2015)

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