Abstract
Stability control system (SCS) plays a very important role in the operation of power systems, so it is correspondingly essential to ensure the reliability of the SCS during its experimental and verification process. However, there are numerous problems in the management of the paper form based experiment mode of SCS today, such as long circulation cycle caused by low work efficiency, insecure and diseconomy on storage. More importantly, it is difficult to query and review historical records quickly, and it may even lead to the loss of records for various reasons. In this paper, taking advantage of blockchain technology, all the information of each experimental stage of SCS, including the approval information, experimental environment information, experimental equipment information of each manufacturer, experimental test reports and conclusions, are packaged and distributed managed. And then, a blockchain based experimental management system framework with the unified data form and module interface is proposed, in which the whole process of process record can be traced and cannot be tampered with. The experimental management system can be applied in the whole process of the SCS, including the experiment scheme making, experiment environment constructing, experiment processing, result evaluating, and results storage, etc. The blockchain based mechanism and system framework is expect to take many advantage to experiment management of SCS.
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References
Jinhai, S., Xueming, L., Changan, J., et al.: Current situation and development prospect of security and stability control equipment. Autom. Electr. Power Syst. 29(23), 91–96 (2005)
National Grid ESO. Technical report on the events of 9 August 2019 [EB/OL]. [2019-09-06]. https://www.nationalgrideso.com/document/152346/download
Mingjie, L.I.: Characteristic analysis and operational control of large-scale hybrid UHV AC/DC power grids. Power Syst. Technol. 40(4), 985–991 (2016)
Xijian, D., Jianbo, L., Xiaodan, C., et al.: Whole control time and its constitution of security and stability control system. Autom. Electr. Power Syst. 42(5), 163–168 (2018)
Guoping, C., Mingjie, L., Tao, X.: System protection and its key technologies of UHV AC and DC power grid. Autom. Electr. Power Syst. 42(22), 2–10 (2018)
Jianbo, L., Xijian, D., Xiaodan, C., et al.: Discussion on reliability of large scale security and stability control system. Power Syst. Prot. Control 46(8), 65–72 (2018)
Yongjie, F.: Reflections on stability technology for reducing risk of system collapse due to cascading outages. J. Mod. Power Syst. Clean Energ. 2(3), 264–271 (2014)
Luo, J., Dong, X., Xue, F., et al.: A review of stability control technologies for power systems in China. Iop Conf. 227, 032020 (2019)
Jiang, K., Singh, C.: New models and concepts for power system reliability evaluation including protection. IEEE Trans. Power Syst. 26(4), 1845–1855 (2011)
Qi, G., Yihua, Z., Dongxu, C., et al.: Remote test method for security and stability control system of power grid and its engineering application. Autom. Electr. Power Syst. 44(1), 152–159 (2020)
Technical guide for electric power system security and stability control: GB/T 26399 -2011. Standards Press of China, Beijing (2011)
Nakamoto, S.: Bitcoin: a peer-to-peer electronic cash system (2009). https://bitcoin.org/bitcoin.pdf
Bitcoin: Bitcoin core integration [EB/OL] (2017). https://github.com/bitcoin/bitcoin
Swan, M.: Blockchain: Blueprint for a New Economy. O’Reilly, Sebastopol (2015)
Tapscott, D., Tapscott, A.: Blockchain Revolution: How the Technology Behind Bitcoin and Other Cryptocurrencies is Changing the World. Portfolio, New York (2016)
Wattenhofer, R.: The Science of the Blockchain. CreateSpace Independent Publishing Platform, USA (2016)
Tschorsch, F., Scheuermann, B.: Bitcoin and beyond: a technical survey on decentralized digital currencies. IEEE Commun. Surv. Tutorials 18(3), 2084–2123 (2016)
Buterin, V.: A next-generation smart contract and decentralized application platform [EB/OL] (2017). https://github.com/ethereum/wiki/wiki/White-paper
Tao, W., Yanyun, Z.: Theory and architecture design of statistical blockchain. Stat. Decis. Making 534(18), 5–9 (2019)
Liang, C., Qilei, L., Xiubo, L.: Blockchain technology advancement and practice. People’s post and Telecommunications Press, Beijing (2018)
Xingpei, J., Yizhong, W.: Reaserch and implementation of the system of multi-disciplinary flow integration and design of experment. Comput. Sci. 40(11A), 369–373 (2013)
Jindong, C., Shengwen, W., Yechun, X.: Research on technical framework of smart grid data management from consortium blockchain perspective. Proc. CSEE 40(3), 836–847 (2020)
Swan, M.: Blockchain: Blueprint for a New Economy. Reilly Media Inc, USA (2015)
Markus, D., Vera, D.: Financial Technology: The Promise of Blockchain. IW-Kurzberichte, no. 1 (2017)
Pilkington, M.: Blockchain Technology: Principles and Applications. Edward Elgar Publishing, Northampton (2016)
Yong, Y., Xiao-Chun, N., Shuai, Z., et al.: Blockchain consensus algorithms: the state of the art and future trends. Acta Automatica Sinica 44(11), 2011–2022 (2018)
Hyperledger. About Hyperledger [EB/OL]. The Linux Foundation Projects, USA (2017). https://www.hyperledger.org/about
Dewen, W., Zhiquan, L.: Regional energy transaction model and experimental test based on smart contract. Power Syst. Technol. 043(006), 2010–2019 (2019)
Bo, L., Dan, W., Pengfei, S.: Research on peer-to-peer energy transaction at user-side for microgrid based on baas platform. Electr. Power Constr. 40(006), 13–22 (2019)
Chen, C.: Key technologies of alliance blockchain and regulatory challenges of blockchain. Power Equipment Management, pp. 20–22 (2019)
Acknowledgments
This work is supported by State Grid Corporation of China (Research on System Protection Test and Verification Technology Based on Multi-mode Real-time Co-simulation and Flexible Reconfiguration of Control Strategy, No. 5100-201940008A-0-0-00).
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Cui, X., Lei, M., Yang, T., Wu, J., Feng, J., Yang, X. (2021). Design of Experiment Management System for Stability Control System Based on Blockchain Technology. In: Gao, W., et al. Intelligent Computing and Block Chain. FICC 2020. Communications in Computer and Information Science, vol 1385. Springer, Singapore. https://doi.org/10.1007/978-981-16-1160-5_24
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DOI: https://doi.org/10.1007/978-981-16-1160-5_24
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