Study of the Hydrodynamic Effect on Molecular Parameters of the Isoprene Polymerization Product with the Neodymium-Containing Catalytic Complex Present

Q3 Mathematics

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Pub Date : 2022-10-01 DOI:10.18698/1812-3368-2022-5-120-138

E. Miftakhov, S. Mustafina, S. Podvalny, I. Nasyrov, V. Zakharov

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Abstract

The results of studying kinetic regularities in the process of obtaining polyisoprene in the presence of neodymium-containing catalytic systems for various technological modes of industrial production are presented. The process kinetic scheme is provided under conditions of the used catalyst monocenter, according to which a mathematical model of the process of isoprene polymerization for the process periodic and continuous modes is compiled. Kinetic approach to solving problems of chemical kinetics in combination with the method of moments was applied in the process mathematical description. To evaluate hydrodynamic influence exerted by the process implementation in a reactor cascade, the constructed kinetic model was supplemented with a macro-kinetic module that takes into account the relevant patterns. Features of the starting and static modes calculation in continuous production were determined. Numerical calculation methods were introduced to obtain dependences of alterations in the molecular parameters of the resulting product for a different number of reactors used in the continuous production system under static conditions. The hydrodynamic mode influence was shown in the reaction zone on the molecular weight distribution of the resulting product. As a result of computational experiments aimed at increasing the length of the reactor cascade, increase in the average molecular weights and approximation of the obtained values to the those characterizing the process periodic mode were noted

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含钕催化配合物对异戊二烯聚合产物分子参数的水动力学影响研究

介绍了不同工业生产工艺模式下含钕催化体系制备聚异戊二烯过程动力学规律的研究结果。给出了所用催化剂为单中心条件下的过程动力学方案，并据此建立了周期模式和连续模式下异戊二烯聚合过程的数学模型。将动力学方法与矩量法相结合用于化学动力学问题的数学描述。为了评估反应器级联过程实施对水动力的影响，在构建的动力学模型中添加了考虑相关模式的宏观动力学模块。确定了连续生产中启动模式和静态模式计算的特点。采用数值计算方法，得到了静态条件下连续生产系统中不同反应器数量下产物分子参数变化的依赖关系。反应区流体动力模式对产物分子量分布有影响。通过增加反应器级联长度的计算实验，我们注意到平均分子量的增加以及所得值与表征过程周期模式的值的近似

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来源期刊

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Mathematics-Mathematics (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal is aimed at publishing most significant results of fundamental and applied studies and developments performed at research and industrial institutions in the following trends (ASJC code): 2600 Mathematics 2200 Engineering 3100 Physics and Astronomy 1600 Chemistry 1700 Computer Science.