Research on thermal runaway process of styrene bulk polymerization

Weibo Jiang; Xuhai Pan; Min Hua; Lei Ni; Juncheng Jiang

doi:10.1002/prs.11934

Research on thermal runaway process of styrene bulk polymerization

Weibo Jiang, Xuhai Pan, Min Hua, Lei Ni, Juncheng Jiang

安全科学与工程学院

Nanjing Tech University

科研成果: 期刊稿件 › 文章 › 同行评审

14 引用（Scopus）

摘要

In a strongly exothermic reaction process, any cooling system failure can lead to a serious accident. The present paper investigates the developments in a polymerization reaction system when thermal runaway occurs. Temperature of polymerization is the key parameter of interest. In this work, a kinetic model of styrene polymerization was used to predict reactor temperature using Aspen Plus software. An adiabatic process of styrene polymerization was simulated, and the results indicate that the reactor temperature is able to reach 260°C. When thermal runaway occurs, the degree of styrene polymerization is lower. Different conditions were employed to explore the influence of operating parameters. The results demonstrate that the higher the initial reaction temperature, the faster thermal runaway occurs, and that the greater the proportion of diluent is, the later the reactor reaches its T_MAX.

源语言	英语
页（从-至）	276-282
页数	7
期刊	Process Safety Progress
卷	37
期	2
DOI	https://doi.org/10.1002/prs.11934
出版状态	已出版 - 6月 2018

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abstract = "In a strongly exothermic reaction process, any cooling system failure can lead to a serious accident. The present paper investigates the developments in a polymerization reaction system when thermal runaway occurs. Temperature of polymerization is the key parameter of interest. In this work, a kinetic model of styrene polymerization was used to predict reactor temperature using Aspen Plus software. An adiabatic process of styrene polymerization was simulated, and the results indicate that the reactor temperature is able to reach 260°C. When thermal runaway occurs, the degree of styrene polymerization is lower. Different conditions were employed to explore the influence of operating parameters. The results demonstrate that the higher the initial reaction temperature, the faster thermal runaway occurs, and that the greater the proportion of diluent is, the later the reactor reaches its TMAX.",

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AU - Jiang, Weibo

AU - Pan, Xuhai

AU - Hua, Min

AU - Ni, Lei

AU - Jiang, Juncheng

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AB - In a strongly exothermic reaction process, any cooling system failure can lead to a serious accident. The present paper investigates the developments in a polymerization reaction system when thermal runaway occurs. Temperature of polymerization is the key parameter of interest. In this work, a kinetic model of styrene polymerization was used to predict reactor temperature using Aspen Plus software. An adiabatic process of styrene polymerization was simulated, and the results indicate that the reactor temperature is able to reach 260°C. When thermal runaway occurs, the degree of styrene polymerization is lower. Different conditions were employed to explore the influence of operating parameters. The results demonstrate that the higher the initial reaction temperature, the faster thermal runaway occurs, and that the greater the proportion of diluent is, the later the reactor reaches its TMAX.

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Research on thermal runaway process of styrene bulk polymerization

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