Multi-Objective Optimization of Cell Voltage Based on a Comprehensive Index Evaluation Model in the Aluminum Electrolysis Process

电压 电池电压 过程(计算) 控制理论(社会学) 自回归模型 电解法 计算机科学 遗传算法 控制工程 工程类 电解 控制(管理) 人工智能 数学 化学 统计 电气工程 操作系统 物理化学 机器学习 阳极 电极 电解质
作者
Chenhua Xu,Wenjie Zhang,Dan Liu,Jian Cen,Jianbin Xiong,Guojuan Luo
出处
期刊:Mathematics [Multidisciplinary Digital Publishing Institute]
卷期号:12 (8): 1174-1174 被引量:2
标识
DOI:10.3390/math12081174
摘要

In the abnormal situation of an aluminum electrolysis cell, the setting of cell voltage is mainly based on manual experience. To obtain a smaller cell voltage and optimize the operating parameters, a multi-objective optimization method for cell voltage based on a comprehensive index evaluation model is proposed. Firstly, a comprehensive judgment model of the cell state based on the energy balance, material balance, and stability of the aluminum electrolysis process is established. Secondly, a fuzzy neural network (FNN) based on the autoregressive moving average (ARMA) model is designed to establish the cell-state prediction model in order to finish the real-time monitoring of the process. Thirdly, the optimization goal of the process is summarized as having been met when the difference between the average cell voltage and the target value reaches the minimum, and the condition of the cell is excellent. And then, the optimization setting model of cell voltage is established under the constraints of the production and operation requirements. Finally, a multi-objective antlion optimization algorithm (MOALO) is used to solve the above model and find a group of optimized values of the electrolysis cell, which is used to realize the optimization control of the cell state. By using actual production data, the above method is validated to be effective. Moreover, optimized operating parameters are used to verify the prediction model of cell voltage, and the cell state is just excellent. The method is also applied to realize the optimization control of the process. It is of guiding significance for stabilizing the electrolytic aluminum production and achieving energy saving and consumption reduction.
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