Pyrolysis characteristics and kinetic analysis of coating pitch derived from ethylene tar using model-free and model-fitting methods

IF 5.8 2区 化学 Q1 CHEMISTRY, ANALYTICAL
Wei Gao, Yongzheng Zhang, Yanli Wang, Liang Zhan
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引用次数: 0

Abstract

This work conducted the pyrolysis of coating pitch derived from the ethylene tar through thermogravimetry analysis. The thermogravimetry-mass spectrometry and solid-state 13C nuclear magnetic resonance spectroscopy were performed to correlate the structural characteristics with the pyrolysis behavior. Meanwhile, the pyrolysis kinetics were estimated with model-free and model-fitting methods. The TG-DTG results showed that the pyrolysis process was generally divided into drying, fast pyrolysis, and polycondensation stages, accompanied by the decomposition of active functional groups like the aliphatic carbons bonded to oxygen (falO), the pyrolysis of relatively stable groups like the non-protonated aromatic carbon (faH), and the condensation of high bonding-energy aromatic structure like aromatic bridgehead carbon (faB). The activation energy obtained from model-free analysis ranged from 78.12 to 150.92 kJ/mol with the increasing conversion, indicating the pyrolysis process as a multi-step reaction mechanism. Furthermore, the reaction model A1/3 (gα=[ln(1α)]3) was identified as the most suitable model for the pyrolysis of coating pitch in the conversion range of 0.25–0.8. The modeling values matched well with the experimental data, indicating the accuracy and feasibility of the results.
使用无模型和模型拟合方法分析乙烯焦油衍生涂层沥青的热解特性和动力学分析
这项研究通过热重分析法对乙烯焦油衍生的涂层沥青进行了热解。通过热重-质谱法和固态 13C 核磁共振谱分析了结构特征与热解行为的相关性。同时,采用无模型法和模型拟合法估算了热解动力学。TG-DTG 结果表明,热解过程一般分为干燥阶段、快速热解阶段和缩聚阶段,伴随着与氧键合的脂肪族碳(falO)等活性官能团的分解、非质子化芳香碳(faH)等相对稳定的官能团的热解以及芳香桥头碳(faB)等高键能芳香结构的缩聚。随着转化率的增加,无模型分析得到的活化能在 78.12 至 150.92 kJ/mol 之间,表明热解过程是一个多步骤反应机制。此外,反应模型 A1/3(gα=[-ln(1-α)]3)被认为是 0.25-0.8 转化率范围内最适合涂料沥青热解的模型。模型值与实验数据十分吻合,表明了结果的准确性和可行性。
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来源期刊
CiteScore
9.10
自引率
11.70%
发文量
340
审稿时长
44 days
期刊介绍: The Journal of Analytical and Applied Pyrolysis (JAAP) is devoted to the publication of papers dealing with innovative applications of pyrolysis processes, the characterization of products related to pyrolysis reactions, and investigations of reaction mechanism. To be considered by JAAP, a manuscript should present significant progress in these topics. The novelty must be satisfactorily argued in the cover letter. A manuscript with a cover letter to the editor not addressing the novelty is likely to be rejected without review.
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