单烟和逐烟热解测定白肋、弗吉尼亚和东方烟草排放的新技术

P. NuanCheah, Hendrickx Lpa, S. Borst, Cremers Jwjm, Jansen Ehjm, A. Opperhuizen, R. Talhout
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摘要

本研究采用热解-气相色谱-质谱联用技术对三种常用烟叶的热解产物进行了比较。对于烟草制品监管,重要的是要了解在吸烟过程中产生的排放物的形成。为此,我们报告了一种简单的分析方法,利用热解机器人耦合气相色谱-质谱联用技术来研究烟叶的燃烧过程。这种方法允许模拟吸烟过程,通过吸一口(单口)和多一口(一口接一口),并随后确定燃烧产物。我们研究了三种最常见的烟草品种:伯利、弗吉尼亚和东方,在热解过程中形成的13种最丰富的排放物。与市售烟草制品不同,烟叶未使用任何添加剂处理,从而可以对原烟叶的燃烧产物进行评估。我们的研究表明,烟草燃烧时主要产生烟草特有的生物碱,如尼古丁、碳氢化合物(甲苯、二甲苯和柠檬烯)和其他化合物,如乙醛、苯酚和糠醛。热解过程中产生的主要化学物质为尼古丁,其次为β-烟碱、乙醛和甲苯。对于较低分子量的组分,如乙醛,其量一般随抽吸次数的增加而减少。另一方面,这三种烟叶的尼古丁产量都随着抽吸次数的增加而增加。
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A New Technique to Determine Emissions of Burley, Virginia andO riental Tobacco Using Single Puff and Puff-By-Puff Pyrolysis
In this study, we compared the pyrolysis products of the three most commonly used tobacco leaves using pyrolysis-gas chromatography coupled with mass spectrometry detection. For tobacco product regulation, it is important to understand the formation of emissions that occurs during smoking of tobacco. To this purpose, we report a simple analytical method to investigate the combustion process of tobacco leaves using a pyrolysis robot coupled to a GC-MS. This method allows for simulation of the tobacco smoking process, by taking one puff (single puff) and more puffs (puff-by-puff), and subsequent determination of the combustion products. We studied the 13 most abundant emissions formed during the pyrolysis of the three most common tobacco varieties: Burley, Virginia and Oriental. Unlike commercially available tobacco products, the tobacco leaves were not treated with any additives, allowing for an assessment of the combustion product of raw tobacco leaves. Our study shows that tobacco, when combusted, produces predominantly tobacco specific alkaloids such as nicotine, hydrocarbons (toluene, xylene and limonene) and other compounds such as acetaldehyde, phenol and furfural. Nicotine is the main chemical produced during pyrolysis followed by β-nicotyrine, acetaldehyde and toluene. For lower molecular weight components such as acetaldehyde, the amounts generally decreased with puff number. On the other hand, nicotine yields in all three tobacco leaves were found to increase with puff number.
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