为了控制材料和热状态,建立了万尤科夫熔炼复合工艺的数学模型

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING Kompleksnoe Ispolzovanie Mineralnogo Syra Pub Date : 2023-04-30 DOI:10.31643/2023/6445.35
N. Mussabekov, B. Mukhanov
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引用次数: 0

摘要

本文在物质平衡和热平衡方程的基础上,提出了一个输入和输出流依赖关系的静态方程形式的数学模型,用于万尤科夫熔炼(PV)复杂工艺综合体的操作规划和控制。基于开发的下吹熔炼工艺技术,给出了动态特性,以控制热态。研究的结果是,在计算炉料的物质流动时,所开发的用于控制冶炼过程的数学模型将允许跟踪冶炼热状态的变化(通过亚铜中的铜含量)。该模型可以很好地描述过程状态的动态,既可以建立旨在增加炉子加热的影响,也可以降低炉子加热的影响。在此基础上,在MATLAB软件包中建立了基于动态规划方法的计算机模型。科学的新颖性在于,第一次建立了一个数学模型的结构,描述了冶炼产品的过风口区和污泥区发生的过程。
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Development of a mathematical model for a compound technological complex of vanyukov melting in order to control the material and thermal regime
This article presents a mathematical model in the form of static equations of dependencies of input and output flows based on the equations of material and heat balance for the purposes of operational planning and control of the complex technological complex of Vanyukov melting (PV). Dynamic characteristics are presented for the purpose of controlling the thermal regime based on the technology of the developed melting process with blowing from below. As a result of the study, the developed mathematical model for controlling the smelting process when calculating the material flows of the charge will allow tracking changes in the thermal state of the smelting (by the copper content in the matte). This model can quite well describe the dynamics of the state of the process, both when establishing the impacts aimed at increasing the heating of the furnace, and at reducing its heating. Based on the equations, a computer model based on the dynamic programming method in the MATLAB software package has been developed. The scientific novelty lies in the fact that for the first time, the structure of a mathematical model has been developed that describes the processes occurring in the over-tuyere zone and the sludge zone of the smelting products.
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