烟叶和烤烟热解特性及动力学的TG-FTIR分析

An-liang Wang, B. Cai, Lili Fu, Miao Liang, X. Shi, Bing Wang, Nan Deng, Bin Li
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引用次数: 2

摘要

研究烟草原料的详细热解特性对了解产品设计和消费具有重要意义。本文采用热重分析仪和傅里叶变换红外光谱(TG-FTIR)对雪茄填充烟(CFT)、雪茄包装烟(CWT)和烤烟(FCT)的热解特性和动力学模型进行了研究。根据导数热重分析(DTG)曲线,将不同烟草样品的热解过程划分为4个阶段。烤烟在较低温度下(约200°C)发生了明显的分解过程,而雪茄烟在较高温度下发生热分解。在热解过程中,通过FTIR检测出H2O、CO2、CH4、CO、羰基、醇类、酚类和芳香族化合物。CWT比CFT释放更多的CO2,而烤烟释放的CO2、CH4、CO和芳香族化合物的量低于雪茄烟。通过等转换two (Flynn-Wall-Ozawa)法和KAS (Kissinger-Akahira-Sunose)法对烟叶的热解动力学进行了进一步的分析和比较。FCT的活化能(从100.1 kJ mol−1到192.1 kJ mol−1)低于CFT(从207.36 kJ mol−1到319.28 kJ mol−1)和CWT(从160.40 kJ mol−1到260.45 kJ mol−1)。采用Málek和Coats-Redfern方法分析了不同烟叶的热分解动力学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of Pyrolysis Characteristics and Kinetics of Cigar Tobacco and Flue-Cured Tobacco by TG-FTIR
Summary Investigation of the detailed pyrolysis characteristics of tobacco raw materials is important for the understanding of product design and consumption. In this work, pyrolysis characteristics and kinetic models of cigar filler tobacco (CFT), cigar wrapper tobacco (CWT), and flue-cured tobacco (FCT) were investigated by using a thermogravimetric analyzer coupled with Fourier-transform infrared spectroscopy (TG-FTIR). The pyrolysis of different tobacco samples could be divided into four stages based on the derivative thermogravimetric analysis (DTG) curves. Flue-cured tobacco underwent a marked decomposition process at lower temperatures (about 200 °C), while the thermal decomposition of cigar tobacco occurs at higher temperatures. During the pyrolysis process, evolved gases including H2O, CO2, CH4, CO, carbonyls, alcohols, phenols and aromatic compounds were detected by FTIR. CWT released more CO2 than CFT, while the amount of CO2, CH4, CO and aromatic compounds released by flue-cured tobacco was lower than that of cigar tobacco. The pyrolysis kinetics of tobacco leaves were further analyzed and compared through the isoconversional FWO (Flynn-Wall-Ozawa) and KAS (Kissinger-Akahira-Sunose) methods. The activation energy of FCT (from 100.1 kJ mol−1 to 192.1 kJ mol−1) was lower than that of CFT (from 207.36 kJ mol−1 to 319.28 kJ mol−1) and CWT (from 160.40 kJ mol−1 to 260.45 kJ mol−1). The thermal decomposition kinetics of different tobaccos were analyzed by Málek and Coats-Redfern methods.
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