Modeling and optimization of regular multi-stage multi-product gravity classifiers

V. Zhukov, A. N. Belyakov, A. V. Ogurtsov, A. Shmelev, D. S. Barakovskikh, S. I. Shuvalov
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Abstract

The issues of processing bulk materials are of great importance in the energy, pharmacology, and chemical industries. New technologies have new requirements for the granulometric characteristics of individual components of powders and their mixtures. Often, the components of a mixture differ in their properties and grain sizes, thus, multi-stage processing of these mixtures is required to obtain powders with desired technological properties. Optimal control of the structure and operating modes of complex multi-stage apparatus to obtain powders with desired properties is a topical task. Methods of probability theory and fractional mass balance equations are used to model multistage gravitational classifiers. Mathematical programming methods are applied to solve optimization problems of powder classification. A generalized method of combinatorial matrix description of an open stage of regular multiproduct classifying elements for an arbitrary number of finished products is proposed. The proposed model of the considered stage is used for the matrix description of a closed system of devices with an arbitrary flow structure. The authors have determined the best structures and operating modes of individual stages to obtain powders with specified technological properties. The developed approach makes it possible to optimally control the structure of the cascade of classifiers and the modes of operation of its individual stages to obtain powders with desired technological properties, as well as to design systems for predictive diagnostics of the state of these installations in the energy, pharmacological and chemical industries.
规则多级多产品重力分类器的建模与优化
在能源、药理学和化学工业中,处理散装材料的问题是非常重要的。新技术对粉末及其混合物的各个组分的粒度特性提出了新的要求。通常,混合物的成分在其性质和粒度上不同,因此,需要对这些混合物进行多阶段加工,以获得具有所需技术性能的粉末。复杂多级装置的结构和工作模式的优化控制,以获得所需的粉体性能是一个热门的课题。采用概率论和分数质量平衡方程的方法对多级重力分类器进行建模。应用数学规划方法求解粉末分级的优化问题。提出了一种用于任意数量成品的正则多产品分类元开放阶段的组合矩阵描述的广义方法。所提出的考虑级模型用于具有任意流结构的封闭装置系统的矩阵描述。作者确定了各个阶段的最佳结构和操作方式,以获得具有特定工艺性能的粉末。所开发的方法可以优化控制分级器级联的结构及其各个阶段的操作模式,以获得具有所需技术特性的粉末,以及设计用于能源,药理学和化学工业中这些装置状态预测诊断的系统。
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