Distributed Energy Transaction Model Based on the Alliance Blockchain in Case of China

Authors

  • Yongxiu He School of Economics and Management, North China Electric Power University, Changping Beijing, China; Beijing Key Laboratory of New Energy and Low-Carbon Development (North China Electric Power University), Changping Beijing, China
  • Wei Xiong School of Economics and Management, North China Electric Power University, Changping Beijing, China; State Grid Hunan Electric Power Company limited, Changde Power Supply Company, Changde, Hunan, China
  • Bin-you Yang State Grid Hunan Electric Power Company limited, Changde Power Supply Company, Changde, Hunan, China
  • Rui Zhang State Grid Hunan Electric Power Company limited, Changde Power Supply Company, Changde, Hunan, China
  • Ming-li Cui School of Economics and Business Administration, Heilongjiang University, Harbin, China
  • Tian-tian Feng School of Economics and Management, China University of Geosciences, Beijing, China; Key Laboratory of Carrying Capacity Assessment for Resource and Environment, Ministry of Land and Resources, Beijing, China; Key Laboratory of Strategic Studies, Ministry of Land and Resources, Beijing, China
  • Yi-er Sun School of Engineering, The Hong Kong University of Science and Technology, Hong Kong, China

DOI:

https://doi.org/10.13052/jwe1540-9589.2026

Keywords:

Blockchain, distributed energy trading, energy Internet

Abstract

Distributed energy, mainly composed of new energy, plays an important role in promoting the development of new energy. At present, the development of distributed energy is greatly hindered by imperfect trading platform and unstable output of new energy. Blockchain is decentralized, autonomous and requires collaborative management. Its own technical characteristics have the inherent advantages of reconstructing the energy system. The alliance chain in the blockchain is more suitable for building a distributed energy trading platform. The paper constructs a distributed energy transaction model based on alliance blockchain, studies the integration mode of blockchain and distributed energy transaction, and explores the application of blockchain in distributed transaction. The paper provides a new idea for optimizing and reconstructing the traditional distributed energy trading platform, and providing decision support for promoting distributed energy trading.

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Author Biographies

Yongxiu He, School of Economics and Management, North China Electric Power University, Changping Beijing, China; Beijing Key Laboratory of New Energy and Low-Carbon Development (North China Electric Power University), Changping Beijing, China

Yongxiu He graduated from north China electric power university in 1997, had a master’s degree in power system and its automation major, received a doctor’s degree in management of north China electric power university, 2006, April 2004 – December 2009, for north China electric power university institute of business administration power economic management department, responsible for the direction of the power of economic and management specialized teaching and scientific research management. Since December 2009, she has been the Deputy Dean of School of Economics and Management of North China Electric Power University, responsible for teaching management of School of Economics and Management of North China Electric Power University. In the electric power technology economy and management, electricity market, energy economy, low carbon economy and other fields of in-depth research.

Wei Xiong, School of Economics and Management, North China Electric Power University, Changping Beijing, China; State Grid Hunan Electric Power Company limited, Changde Power Supply Company, Changde, Hunan, China

Wei Xiong is a Ph.D. student in Energy Management of North China Electric Power University, engaged in research on the application of blockchain technology in the energy industry.

Bin-you Yang, State Grid Hunan Electric Power Company limited, Changde Power Supply Company, Changde, Hunan, China

Bin-you Yang graduated from Changsha University of Science and Technology in 2019 with a master’s degree in electrical engineering. After graduation, he worked in State Grid Changde Power Supply Company and is now engaged in research work on power market economy.

Rui Zhang, State Grid Hunan Electric Power Company limited, Changde Power Supply Company, Changde, Hunan, China

Rui Zhang graduated from Guangdong University of Technology in 2014 with a master’s degree in electrical engineering. After graduation, he worked in State Grid Changde Power Supply Company. Now he is the director of distribution department in Hanshou Power Supply Company of State Grid, engaged in electric power big data analysis and other research work.

Ming-li Cui, School of Economics and Business Administration, Heilongjiang University, Harbin, China

Ming-li Cui graduated from the School of Economics and Business Administration of Heilongjiang University in 2021. Ms Cui has won many honors such as national scholarship, academic scholarship and study model during her college years. In 2020, she was admitted to China University of Geosciences (Beijing) as the first student in her major and enrolled in September 2021. At present, Ming-li Cui has joined her tutor’s research group and actively completed the project research.

Tian-tian Feng, School of Economics and Management, China University of Geosciences, Beijing, China; Key Laboratory of Carrying Capacity Assessment for Resource and Environment, Ministry of Land and Resources, Beijing, China; Key Laboratory of Strategic Studies, Ministry of Land and Resources, Beijing, China

Tian-tian Feng, Doctor of Technology Economics and Management, School of Economics and Management, China University of Geosciences, Beijing, China. Tian-tian Feng was born in Henan province, china, in 1989. She received her master degree and Ph.D degree of technology economics and management from North China Electric Power University in 2013 and 2016. She is currently working in School of Economics and Management, China University of Geosciences. Her research mainly concerns on renewable energy, electricity economics and energy economics.

Yi-er Sun, School of Engineering, The Hong Kong University of Science and Technology, Hong Kong, China

Yi-er Sun is a M.Sc student in Mechanical Engineering at The Hong Kong University of Science and Technology. Her main research direction is environmentally friendly intelligent building robots. She has been involved in the learning of LCA and green management, and the improvement of China’s CLCD database. She attended China University of Geosciences (Beijing) in 2016, where she received a B.Sc in ME and a double degree in Business Administration. She is very interested in interdisciplinary field such as energy economy and industrial development. She participated in the research of blockchain application in the green certificate during her undergraduate period, as well as the discussion of the green certificate mechanism.

References

Felstead ØD, Snow CC. Business models and organization design. Long Range Planning 2017. Available online.

Zeng Ming, Yang Yangqin, Liu Duncan, et al. Coordination and optimization of operation mode and key technologies of energy Internet “sources-nett-hold-storage” [J]. Power grid technology, 2016, 40(1):114–124.

Energy Network – China Energy News. It is very difficult for distributed energy generation to access the Internet [EB/OL]. Https://www.in-en.com/article/html/energy-2222426.shtml

Rifkin J. The third industrial revolution: how lateral power is transforming energy, the economy, and the world [M]. New York: Palgrave MacMillan, 2011.

Yi Wang, Ning Zhang, Chongqing Kang. Research review and prospect on optimization planning and operation of energy hubs in energy Internet [J]. Chinese journal of electrical engineering, 2015, 35(22):5669–5681.

Su W, Huang AQ. A game theoretic framework for a next-generation retail electricity market with high penetration of distributed residential electricity suppliers [J]. Applied Energy, 2014, 119(C):341–350.

Zhou K, Yang S, Zhen S. Energy Internet: The business perspective [J]. Applied Energy, 2016, 178:212–222.

Lei Tan, Gang Chen. Block chain 2.0 [M]. Beijing: electronic industry press, 2015.

Ning Zhang, Yi Wang, Chongqing Kang, Jian nan Cheng, He Dawei. Block chain technology in energy Internet: research framework and typical applications [J]. Chinese journal of electrical engineering, 2016, 36(15):4011–4023.

Jing Lu, Bin Song, Wanhong Xiang, Zhiming Zhou. Intelligent contract for power market transaction settlement based on block chain [J]. Computer system application, 2017, 26(12):43–50.

Ding Wei. Block chain-based instrument data management system. China Instrumentation, 2015, (10):15–17.

Zhigang Jin, Ruoxi Wu, Gen Li, Yue Shunmin. Ev charging transaction model based on the soyuz block chain [J]. Power grid technology, 2019, 43(12):4362–4368.

Hongling Xie, Yanan Zheng, Yanqing Li. Microgrid economic transaction model based on energy block chain network [J]. Journal of north China electric power university, 2019, 46(3):17–26.

Yanan Zheng. Microgrid scheduling and trading method based on energy block chain [D]. North China electric power university, 2019.

Wei She, Zhihao Gu, Xiaoyu Yang, Zhao Tian, Jiansen Chen, Wei Liu. Multi-energy complementary security trading model of heterogeneous energy block chain [J]. Power grid technology, 2019, 43(9):3193–3201.

Cai Weide, Yu Lian, Wang Rong, et al. Research on application development method based on blockchain [J]. Journal of Software, 2017(6):1474–1487.

Wey, A.B., et al. Public chain technology and its application value [J]. Internet Economy, 2018(07):26–31.

Wei Bin, Liu Xiaofeng, Gou Hang. An investigation of the distributed on-chain energy transaction model based on public chain [J]. Journal of Changchun Normal University, 2020, 39(02):41–47.

Kazi Masudul Alam, J.M. Ashfiqur Rahman, Anisha Tasnim, Aysha Akther, A Blockchain-based Land Title Management System for Bangladesh, Journal of King Saud University – Computer and Information Sciences, 2020.

Li Zhibin. Research on Access Control of Healthcare Security Network Based on Ethereum Private Chain [D]. Huazhong University of Science and Technology, 2019.

Rui Hou, Guowen Ren, Chunlei Zhou, et al. Analysis and research on network security and privacy security in ubiquitous A Certificate Storage Method for Confirming Video Copyright and Tracing the Source Based on Electricity Internet of Things. 2020, 158:64–72.

Yang Yang, Yang Yang, Yu Dingguo. A Certificate Storage Method for Confirming Video Copyright and Tracing the Source Based on Alliance Chain. 2020, 1631(1):012180.

Zhang Lihua, Hu Fangzhou, Huang Yang, Wan Yuanhua, Li Jingjing. A microgrid identity protocol based on federated chains [J]. Journal of Applied Science, 2020, 38(01):173–183.

Qiao Rui, Cao Yan, Wang Qingxian. A dynamic data traceability mechanism for the Internet of Things based on federated chains [J]. Journal of Software, 2019, 30(06):1614–1631.

XIA Chenyi, CAI Qingsong, WU Jie. A quoteless trading mechanism for microgrid based on PoA alliance chain[J]. Computer System Applications, 2020, 29(11):57–65.

Cheng Dongling, Shen Chen, Pang Ling. Research on the Application of Alliance Blockchain in Energy Internet [J]. Mechatronics Information, 2019(24):155–157.

Yang Dechang, Zhao Xiaoyu, Xu Zixiang, Li Yong, Li Qiang. Analysis of the current situation and prospect of blockchain application in energy internet [J]. Chinese Journal of Electrical Engineering, 2017, 37(13):3664–3671.

Zhengtang Fu, Peiwu Dong, Yanbing Ju, an intelligent electric vehicle charging system for new energy companies based on consortium blockchain, Journal of Cleaner Production, Volume 261, 2020, 121219.

Shaomin Zhang, Jieqi Rong, Baoyi Wang, A privacy protection scheme of smart meter for decentralized smart home environment based on consortium blockchain, International Journal of Electrical Power & Energy Systems, Volume 121, 2020, 106140.

Qiang Wang, Min Su, Integrating blockchain technology into the energy sector -from theory of blockchain to research and application of energy blockchain, Computer Science Review, Volume 37, 2020, 100275.

Yi Zhang, Qian Shi, an intelligent transaction model for energy blockchain based on diversity of subjects, Alexandria Engineering Journal, 2020.

Jianchao Hou, Che Wang, Sai Luo, how to improve the competiveness of distributed energy resources in China with blockchain technology, Technological Forecasting and Social Change, Volume 151, 2020, 119744.

Xin Zhou, Lirong Deng, Bin Wang, Zhaoguang Pan. Decentralized energy trading system based on alliance chain [J]. Global energy Internet, 2019, 2(6):556–565.

Lihua Zhang, Fangzhou Hu, Yang Huang, Yuanhua Wan, Jingjing Li. Micro grid identity authentication protocol based on alliance chain [J]. Journal of Applied Sciences, 2020, 38(1):173–182.

National Energy Administration of the national development and Reform Commission. Notice on carrying out the pilot market-oriented transaction of distributed generation [EB/OL]. Http://zfxxgk.nea.gov.cn/auto87/201711/t2017113.htm.

Python and flask framework development Ethereum smart contract [DB/OL]. https://segmentfault.com/a/1190000016188023.

Python interacts with Ethereum [DB/OL]. https://blog.csdn.net/g8433373/article/details/82432766.

Ethereum Python smart contract development guide [DB/OL]. https://blog.csdn.net/mongo_node/article/details/85043799.

Wes Mckinney. Use Python for data analysis [M]. Mechanical industry press, 2019: 361–424.

Xiaoju Huang. Research and implementation of Geth-EBTree, an Ethereum blockchain data query system [D]. East China Normal University, 2020.

Ping Jian, Yan Zheng, Chen Sijie, Shen Zeyu, Yang Su, Li Jing, Qu Haoyuan. Credit risk management method of distributed energy trading market based on block chain [J]. Chinese journal of electrical engineering, 2019, 39(24):7138–7145.

Adetomike Adeyemi, Mingyu Yan, Mohammad Shahidehpour, Cristina Botero, Alba Valbuena Guerra, Niroj Gurung, Liuxi (Calvin) Zhang, Aleksi Paaso, Blockchain technology applications in power distribution systems, The Electricity Journal, Volume 33, Issue 8, 2020, 106817.

Li Bin, Qin Qiu Yue, Qi Bing, Sun Yi, Li De-zhi, Shi Kun, Yang Bin, Xi Peifeng. An overview of blockchain-based distributed energy trading scheme design [J]. Power Grid Technology, 2019, 43(03):961–972.

Shang Helm. Application prospect of blockchain technology in energy industry[J]. Power Information and Communication Technology, 2019, 17(02):1–8.

Biryukov A, Khovratovich D, Pustogarov I. Deanonymisation of clients in Bitcoin P2P network [C]. Proceedings of the 2014 ACM SIGSAC Conference on Computer and Communications Security, 2014:15–29.

Yu Xiaobao, Zheng Dan dan. Application and Prospect of Blockchain Technology in the Energy and Power Sector [J]. Huadian Technology, 2020, 42(08):17–23.

Shuai Zhu, Malin Song, Ming Kim Lim, Jianlin Wang, Jiajia Zhao, The development of energy blockchain and its implications for China’s energy sector, Resources Policy, Volume 66, 2020, 101595.

Yang Ke, Xuan Jiaxing, Wang Huanjuan, Li Guomin, Shen Xueqing. A Review of Blockchain Technology in Energy and Power Industry [J]. Power Construction, 2020, 41(11):1–15.

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Published

2021-03-16

How to Cite

He, Y. ., Xiong, W. ., Yang, B.- you ., Zhang, R. ., Cui, M.- li ., Feng, T.- tian ., & Sun, Y.- er. (2021). Distributed Energy Transaction Model Based on the Alliance Blockchain in Case of China. Journal of Web Engineering, 20(2), 359–386. https://doi.org/10.13052/jwe1540-9589.2026

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Section

Advanced Practice in Web Engineering