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Distributed robust scheduling optimization for energy system of steel industry considering prediction uncertainties
Information Sciences ( IF 8.1 ) Pub Date : 2024-03-11 , DOI: 10.1016/j.ins.2024.120431 Zhiyuan Wang , Zhongyang Han , Jun Zhao , Wei Wang
Information Sciences ( IF 8.1 ) Pub Date : 2024-03-11 , DOI: 10.1016/j.ins.2024.120431 Zhiyuan Wang , Zhongyang Han , Jun Zhao , Wei Wang
Predictive scheduling is commonly deployed for the energy systems in the steel industry, while the uncertainties caused by the predictions can lead to under-optimization or over-adjustment. In order to solve this problem, a novel distributed robust optimization framework is proposed in this study. A Robust Optimization (RO) model is established at first to mathematically address the prediction uncertainties, where the gas, steam, and electricity networks are considered as distributed participants, with their operating costs and CO emissions costs as the objectives for minimization. Then the vanilla 2-block Alternating Direction Multiplier Method (ADMM) is extended to a 3-block structure in this study for solving the established RO model in a distributed manner. Considering the superiority on efficiency, the Column-and-Constraint Generation (C&CG) algorithm is deployed for each block. To ensure convergence considering the extensive interaction between the updated dual and coupling variables in each iteration of the overall ADMM and each C&CG, an adaptive bridging method is developed in this study. Finally, experiments using real data from a steel plant in China demonstrate that the proposed framework has a deviation of less than 1.33 % while with higher efficiency and better robustness compared to other algorithms.
更新日期:2024-03-11
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