The Growth of Cigarette Smoke Particles Suspended on Fine Platinum Wire in Moist Air

Q3 Agricultural and Biological Sciences
F. Cinkotai
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引用次数: 10

Abstract

Abstract The behaviour of smoke condensate (obtained from tobacco of Virginia type by electrostatic precipitation) and large smoke particles suspended on fine platinum wire was studied in moist air. The equilibrium vapour pressure of water over the surface of smoke condensate at 15°C was found to be 76.5 % of the saturation pressure, indicating that the apparent concentration of water soluble particulate matter in the smoke condensate is 1.2 × 10-3 g-mole g-1. The rate of growth of smoke particles suspended on fine wire in moist air was much slower than the rate predicted by Maxwell's theory. Apparently this is not caused by a rise in the temperature of the particle due to the heat liberated in the condensation process, but by a low value for the accommodation coefficient of the particle surfaces (1.5 × 10-4). These results suggest that smoke particles of 0.4 AAµ in diameter, in transit through the respiratory system during smoking, grow by picking up water from the moist pulmonary air by a factor of only 1.7 in mass or 1.2 in diameter. It is concluded that this increase in size is not large enough to affect significantly the rate of deposition of smoke particles in the respiratory tracts.
悬浮在细铂丝上的香烟烟雾颗粒在潮湿空气中的生长
摘要研究了湿空气中维吉尼亚型烟草的烟气冷凝物和悬浮在细铂丝上的大烟雾颗粒的行为。在15℃时,烟雾冷凝水表面的平衡蒸汽压为饱和压力的76.5%,表明烟雾冷凝水中水溶性颗粒物的表观浓度为1.2 × 10-3 g-mol g-1。悬浮在细丝上的烟雾颗粒在潮湿空气中的生长速度比麦克斯韦理论所预测的速度要慢得多。显然,这不是由凝结过程中释放的热量引起的粒子温度升高引起的,而是由粒子表面的调节系数(1.5 × 10-4)的低值引起的。这些结果表明,在吸烟过程中,直径为0.4 AAµin的烟雾颗粒在通过呼吸系统的过程中,通过吸收肺部潮湿空气中的水分而生长,其质量仅为1.7倍,直径仅为1.2倍。由此得出结论,这种大小的增加不足以显著影响烟雾颗粒在呼吸道的沉积速率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Beitrage zur Tabakforschung International/ Contributions to Tobacco Research
Beitrage zur Tabakforschung International/ Contributions to Tobacco Research Agricultural and Biological Sciences-Agronomy and Crop Science
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