Distributed Control Strategy in Energy Cell Systems Based on Blockchain Technology

Abstract

To tackle the problems of cumbersome computation and information security of centralized scheduling under energy cell structure, this paper suggests a distributed and synchronized scheduling technique for energy cell-tissue systems that considers privacy protection based on blockchain technology. First, blockchain technology is used to realize the privacy protection of the system. Then, a two-stage model of distributed optimal dispatch is established, with the pre-dispatch stage forming generation and consumption plans to achieve global economic optimality; and the intra-day real-time dispatch regulating errors to achieve real-time optimal performance. Finally, the feasibility of the proposed approach is demonstrated through simulation experiments, providing a feasible reference solution for the operation model of the energy cell-tissue system.