Mathematical Modeling of Vacuum Gasoil Hydrotreatment

IF 0.7 Q4 ENGINEERING, CHEMICAL
A. M. Vorob’ev, N. S. Belinskaya, D. A. Afanas’eva, S. B. Arkenova, T. A. Kaliyev, E. B. Krivtsov, E. N. Ivashkina, N. I. Krivtsova
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引用次数: 0

Abstract

Results from calculating the thermochemical properties of molecules and the thermodynamic characteristics of vacuum distillate hydrotreatment reactions by quantum-chemical methods are presented. A mathematical hydrotreatment model is developed on the basis of a formalized scheme of reactions for hydrocarbons. The developed kinetic model is used in numerical studies to estimate the effect of the feedstock composition on the residual content of heteroatomic compounds in the vacuum gasoil hydrotreatment product, the effect of the temperature on the content of aromatic hydrocarbons, nitrogen, and sulfur in the hydrotreatment product, and flow rate of the hydrogen-containing gas on the content of sulfur and hydrogen sulfide in hydrotreated vacuum gasoil.

Abstract Image

真空汽油加氢处理的数学建模
本文给出了用量子化学方法计算分子热化学性质和真空馏分加氢反应热力学特性的结果。在烃类反应的形式化方案的基础上建立了加氢处理的数学模型。利用所建立的动力学模型进行了数值研究,研究了原料组成对真空汽油加氢处理产物中杂原子化合物残留量的影响,加氢处理产物中芳烃、氮和硫含量的温度影响,以及含氢气体流量对加氢处理后的真空汽油中硫和硫化氢含量的影响。
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来源期刊
Catalysis in Industry
Catalysis in Industry ENGINEERING, CHEMICAL-
CiteScore
1.30
自引率
14.30%
发文量
21
期刊介绍: The journal covers the following topical areas: Analysis of specific industrial catalytic processes: Production and use of catalysts in branches of industry: chemical, petrochemical, oil-refining, pharmaceutical, organic synthesis, fuel-energetic industries, environment protection, biocatalysis; technology of industrial catalytic processes (generalization of practical experience, improvements, and modernization); technology of catalysts production, raw materials and equipment; control of catalysts quality; starting, reduction, passivation, discharge, storage of catalysts; catalytic reactors.Theoretical foundations of industrial catalysis and technologies: Research, studies, and concepts : search for and development of new catalysts and new types of supports, formation of active components, and mechanochemistry in catalysis; comprehensive studies of work-out catalysts and analysis of deactivation mechanisms; studies of the catalytic process at different scale levels (laboratory, pilot plant, industrial); kinetics of industrial and newly developed catalytic processes and development of kinetic models; nonlinear dynamics and nonlinear phenomena in catalysis: multiplicity of stationary states, stepwise changes in regimes, etc. Advances in catalysis: Catalysis and gas chemistry; catalysis and new energy technologies; biocatalysis; nanocatalysis; catalysis and new construction materials.History of the development of industrial catalysis.
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