Integration of Time and Spatially Resolved In-Situ Temperature and Pressure Measurements With Soft Ionisation Mass Spectrometry Inside Burning Superslim and King-Size Cigarettes

Nan Deng, S. Ehlert, Huapeng Cui, F. Xie, Jan Heide, Bin Li, Chuan Liu, K. McAdam, A. Walte, R. Zimmermann
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引用次数: 1

Abstract

Summary Background Combustion as well as pyrolysis of tobacco greatly affect the type and levels of toxicants in cigarette smoke. We previously developed an approach to combine simultaneous temperature and pressure measurements with fast in-situ microprobe chemical sampling inside a burning cigarette, producing a series of temperature and gas-flow velocity maps that characterize this dynamic system in response to externally applied air flow. Aim Two cigarette types differing only in diameter were puffed under ISO 3308 and Health Canada Intense (HCI) regimes to further understand the dynamic interaction of air flow and cigarette design parameters on tobacco combustion and pyrolysis by applying the thermophysical and thermo-chemical mapping approach. Methods Three types of sampling probes were inserted, which are thermocouple arrays for gas-phase temperature, quartz tubes for pressure measurement, and a heated sampling microprobe coupled to a single-photon soft ionisation mass spectrometer for chemical analysis. Two kinds of similarly constructed cigarettes with the same blend were analysed: superslim (17 mm circumference) and king-size (24 mm circumference). Synchronization among the sampled signals was achieved by mapping two probes (e.g., temperature/chemistry or temperature/pressure) at a time. The physical and chemical events were visualised and compared between the cigarettes and puffing regimes. Results A series of temperature, pressure, and chemical maps were obtained for the superslim and king-size cigarettes under ISO and HCI conditions. The pressure in the burning cigarette was higher in the superslim cigarette, and the temperature distribution differed between the two cigarette formats. As expected, temperatures and pressures were higher under HCI puffing than under ISO puffing for both cigarette formats. Thermochemical maps for e.g., benzene and nitric oxide formation were qualitatively similar between the superslim and king-size cigarettes. For other substances the distribution was markedly different. Conclusion The application of multi-probe in-situ chemical sampling is suitable to analyse highly dynamic combustion and pyrolysis processes occurring inside the two types of cigarettes. Ultimately, a direct comparison of cigarette circumferences on the complex combustion processes and formation of smoke constituents was achieved. [Beitr. Tabakforsch. Int. 29 (2020) 44–54]
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软电离质谱法在燃烧超薄和特大号香烟内部的时间和空间分辨原位温度和压力测量的集成
烟草的燃烧和热解极大地影响了香烟烟雾中有毒物质的类型和水平。我们之前开发了一种方法,将同时进行的温度和压力测量与燃烧香烟内部的快速原位微探针化学采样相结合,生成一系列温度和气体流速图,以表征该动态系统对外部施加气流的响应。目的采用ISO 3308和加拿大卫生部(Health Canada intensity, HCI)标准对两种直径不同的卷烟进行膨化,通过热物理和热化学测绘方法进一步了解气流和卷烟设计参数对烟草燃烧和热解的动态相互作用。方法采用热电偶阵列气相温度测量探针、石英管压力测量探针和与单光子软电离质谱仪耦合的加热取样微探针进行化学分析。研究人员分析了两种结构相似、成分相同的卷烟:超薄卷烟(周长17毫米)和特大号卷烟(周长24毫米)。采样信号之间的同步是通过一次绘制两个探针(例如,温度/化学或温度/压力)来实现的。物理和化学事件被可视化,并在香烟和雾化方式之间进行比较。结果在ISO和HCI条件下,获得了特大号和特大号香烟的一系列温度、压力和化学图。两种烟型的温度分布也存在差异,燃烧时的压力高于超薄型。正如预期的那样,两种卷烟形式在HCI雾化下的温度和压力都高于ISO雾化。例如,苯和一氧化氮形成的热化学图在小号香烟和特大号香烟之间在质量上相似。其他物质的分布则明显不同。结论多探针原位化学取样法适用于分析两种卷烟内部的高动态燃烧和热解过程。最终,实现了对复杂燃烧过程和烟雾成分形成的卷烟周长的直接比较。[Beitr。Tabakforsch。Int. 29 (2020) 44-54]
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