New Insights on the Kinetics of Persulfate-Initiated Itaconic Acid Free-Radical Polymerization

IF 1.8 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Jorge Herrera-Ordonez
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Abstract

A mathematical model is proposed that couples the decomposition kinetics of persulfate (S2O82−) and the free radical polymerization kinetics of itaconic acid (IA); the results are compared with experimental data reported in the literature. It is found that the former is highly affected by the acidification of the aqueous medium which is caused by the equilibrium dissociation of IA but mainly by HSO4 produced by side reactions of the S2O82− decomposition. This qualitatively explains the dependence of d[S2O82−]/dt with [IA] and the initial concentration of persulfate ([S2O82−]0), reported in the literature. According to the model results, temperature overshoots are very likely to occur in the experiments so there is doubt whether the reaction order >1 with respect to [IA] that is sometimes reported in the literature for the rate of polymerization (Rp) is an artifact related to an imprecise temperature (T) control or is due to a more complex mechanism. Due to the higher activation energy of the persulfate decomposition compared to the propagation reaction, small variations of T can lead to significant variations of d[S2O82−]/dt but to an almost imperceptible effect on Rp. Recommendations for future experimental work and refinement of the kinetic model are provided.

Abstract Image

过硫酸盐引发衣康酸自由基聚合动力学的新认识
提出了一个耦合过硫酸盐(S2O82−)分解动力学和衣康酸(IA)自由基聚合动力学的数学模型;结果与文献报道的实验数据进行了比较。发现前者受IA平衡解离引起的水介质酸化的影响较大,但主要受S2O82−分解副反应产生的HSO4−的影响。这定性地解释了文献中报道的d[S2O82−]/dt与[IA]和过硫酸盐([S2O82−]0)初始浓度的关系。根据模型结果,实验中很可能出现温度超调,因此,文献中有时报道的关于聚合速率(Rp)的[IA]的反应顺序>1是与不精确的温度(T)控制有关的人工产物,还是由于更复杂的机制,这一点值得怀疑。由于过硫酸盐分解的活化能高于扩散反应,所以T的微小变化会导致d[S2O82−]/dt的显著变化,但对Rp的影响几乎难以察觉。对今后的实验工作和动力学模型的改进提出了建议。
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来源期刊
Macromolecular Reaction Engineering
Macromolecular Reaction Engineering 工程技术-高分子科学
CiteScore
2.60
自引率
20.00%
发文量
55
审稿时长
3 months
期刊介绍: Macromolecular Reaction Engineering is the established high-quality journal dedicated exclusively to academic and industrial research in the field of polymer reaction engineering.
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