Thermal De-Oxygenation to Form Condensable Aerosol From Reconstituted Tobacco without Auto-Ignition

Zhongya Guo, Shiyuan Wang, Kecheng Zhang, P. Lei, Lili Fu, Qi Zhang, Shanzhai Shang, Shuang Wang, Le Wang, Mingjian Zhang, Weimin Gong, Jingmei Han, Zhiqiang Li, Yonghua Pan, Feng Huang, Chuang Liu, Jianguo Tang, Bing Wang, Bin Li
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Abstract

Summary A novel concept is described here that utilizes externally applied heat to a solid rod of reconstituted tobacco biomass to form a stream of aerosol under progressively oxygen-deficient atmosphere. The boundary of auto-ignition was determined at oxygen concentrations of 0%, 5%, 10%, and 21% and then the effects of these different atmospheres on various parameters were studied. Experimental results indicated that the ignition temperature decreased with the increase of oxygen concentration and a negative temperature coefficient (NTC) for atmosphere with oxygen was observed at before but close to ignition temperature. Significant differences in the yields of CO and CO2 between oxygen and oxygen-free atmosphere were observed. The mass of aerosol produced under an inert atmosphere and reduced-oxygen atmosphere were characterized with selected volatile and semi-volatile components, phenols, aldehydes, and other organic compounds of interests. In addition, higher oxygen concentration resulted in higher bulk and surface oxygen content of solid-phase residue, the reduction of carbon and hydrogen element content and related functional groups, and the content of inorganic compounds also exhibited an increase with oxygen concentration. By systematically changing oxygen concentrations of the biomass bed with increasing temperatures, an aerosol stream of controlled chemical composition and yields could be formed without leading to ignition. Key chemical markers of inhalation harm were measured and compared to each other under different degrees close to combustion. Studying reconstituted tobacco or other biomass materials in such a way could provide alternative and useful information in the design heated biomass aerosol generators.
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从再造烟草中热脱氧形成可冷凝气溶胶而不自燃
本文描述了一种新的概念,即在逐渐缺氧的大气中,利用外部施加的热量对重组烟草生物质的固体棒形成气溶胶流。确定了0%、5%、10%和21%氧浓度下的自燃边界,并研究了不同气氛对各参数的影响。实验结果表明,点火温度随氧气浓度的增加而降低,在接近点火温度的前、近点火温度处存在负温度系数(NTC)。在有氧和无氧气氛中,CO和CO2的产率有显著差异。在惰性气氛和还原氧气氛下产生的气溶胶质量具有选定的挥发性和半挥发性成分、酚类、醛类和其他感兴趣的有机化合物的特征。此外,氧气浓度越高,固相残渣的体积和表面氧含量越高,碳、氢元素含量和相关官能团含量减少,无机化合物含量也随着氧气浓度的增加而增加。随着温度的升高,系统地改变生物质床的氧浓度,可以形成一个化学成分和产量可控的气溶胶流,而不会导致着火。测定了不同接近燃烧程度下的吸入危害关键化学指标,并进行了比较。以这种方式研究重组烟草或其他生物质材料可以为加热生物质气溶胶发生器的设计提供替代和有用的信息。
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