Visual Analysis of Blockchain Energy Storage Scheduling considering the Optimal Scheduling of User-Side Source and Storage Resources

Abstract

With the rapid development of Internet technology, the problem of client-side source storage resources is gradually exposed. In view of the problems of small capacity, uneven distribution, and diversification of attributable entities of user-side source storage resources, the current blockchain energy storage is difficult to schedule, and user-side sources and storage resources cannot be added to power scheduling optimization, resulting in unusable resources. In order to effectively utilize user-side resources, this paper proposes a blockchain energy storage scheduling visualization system (BESSVS) that takes into account the optimal scheduling of user-side source storage resources. The BESSVS can coordinate and optimize the management and control of decentralized power resources and load resources, and effectively combine the Internet of Things and the power plant storage energy corresponding to the BESSVS for optimal scheduling. The design of blockchain energy storage scheduling visualization system is mainly carried out from the system main body and data information structure. The advantages of blockchain in data storage, information security, data interoperability, etc., are introduced into the economic scheduling of blockchain energy storage. It is conducive to the stable scheduling of information transparency and also improves the data security and storage security of the system. Finally, the feasibility and practicability of the method are verified by an example.