A blockchain-based spot market transaction model for energy power supply and demand network

被引：6

作者：

Hu W. ^{[1
]}

Li H. ^{[1
]}

Hu Y. ^{[1
]}

Yao W. ^{[1
]}

机构：

[1] School of Economics and Management, Shanghai University of Electric Power, Shanghai

来源：

European Journal of Electrical Engineering | 2019年 / 21卷 / 01期

关键词：

Blockchain; Energy power supply and demand network (EPSDN); Intraday time-of-use (TOU) power price; Multi-objective search algorithm; Spot power market;

D O I：

10.18280/ejee.210112

中图分类号：

学科分类号：

摘要：

The energy power supply and demand network (EPSDN) is difficult to be scheduled in a coordinated manner, due to the fluctuations in intraday power price. To solve the problem, this paper puts forward a blockchain-based spot market transaction model for the EPSDN, with the aim to enhance the intelligence, real-time performance and security of spot power market transactions. Specifically, intraday time-of-use (TOU) pricing mechanisms were introduced to minimize the negative impacts of intraday power price variation on the spot market; the leading influencing factors of spot power market were identified effectively among various factors through factor analysis; multiple purchase plans were optimized by the multi-objective search algorithm based on the particle swarm optimization (PSO), enabling the seller to optimize the purchase plan when multiple suppliers are available under the relaxation of control over direct power trading. On this basis, the real-time property of the transaction information was guaranteed through EPSDN-based information exchange. The case analysis shows that our transaction model outperformed the traditional centralized transaction model in transaction efficiency and security. The research findings shed new light on the operation of spot power market under partial decentralization. © 2019 International Information and Engineering Technology Association. All rights reserved.

引用

页码：75 / 83

页数：8

共 20 条

[1] Zeng M., Cheng J., Wang Y.Q., Li Y.F., Yang Y.Q., Dou J.Y., Primarily research for multi module cooperative autonomous mode of energy internet under blockchain framework, Proceedings of the CSEE, 37, 13, pp. 3672-3681, (2017)
[2] Yli-Huumo J., Ko D., Choi S., Park S., Smolander K., Where is current research on blockchain technology-A systematic review, PLoS ONE, 11, 10, (2016)
[3] Ouyang X., Zhu X.Q., Ye L., Yao J.G., Preliminary applications of blockchain technique in large consumers direct power trading, Proceedings of the CSEE, 37, 13, pp. 3737-3745, (2017)
[4] Shi Q.S., Liu K., Wen M., Interprovincial generation rights trading model based on blockchain technology, Electric Power Construction, 38, 9, pp. 15-23, (2017)
[5] Li B., Zhang J., Qi B., Li D.Z., Shi K., Cui G.Y., Block chain: Supporting technology of demand side resources participating in grid interaction, Electric Power Construction, 38, 3, pp. 1-8, (2017)
[6] Yang X.D., Zhang Y.B., Lu J.J., Zhao B., Huang F.T., Qi J., Pan H.W., Blockchain-based automated demand response method for energy storage system in an energy local network, Proceedings of the CSEE, 37, 13, pp. 3703-3716, (2017)
[7] Green R.J., Newbery D.M., Competition in the British electricity spot market, Journal of Industrial Economics, 100, 5, pp. 929-953, (1992)
[8] Ederer N., The market value and impact of offshore wind on the electricity spot market: Evidence from Germany, Applied Energy, 154, 9, pp. 805-814, (2015)
[9] Paschen M., Dynamic analysis of the German day-ahead electricity spot market, Energy Economics, 59, 9, pp. 118-128, (2016)
[10] Frade P., Vieira-Costa J., Osorio G., Influence of wind power on intraday electricity spot market: A comparative study based on real data, Energies, 11, 11, (2018)

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