托尔曼表面张力修正对化学反应体系成核的影响

IF 2.1 4区环境科学与生态学 Q2 ENGINEERING, CHEMICAL

Aerosol Science and Technology Pub Date : 1990-01-01 DOI:10.1080/02786829008959436

N. Rao, P. Mcmurry

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引用次数: 8

摘要

本文研究了托尔曼表面张力修正对化学反应体系中气溶胶成核和生长的影响。修正了均匀成核速率的经典Becker-Doring-Zeldovich(BDZ)理论，以包括小液滴表面张力的Tolman校正。采用修正后的成核速率表达式，用Friedlander积分模型模拟气溶胶的成核和生长。在Rao和McMurry的离散截面数值算法中也加入了Tolman校正。结果表明，考虑托尔曼校正后，成核速率大大提高。对于表面能大、分子体积大的物质，成核速率的增加尤其大。利用合理的Tolman系数δ值，得到了SO2光氧化实验中硫酸数浓度和粒径分布的理论与数据吻合较好的结果。而agr…

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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Effect of the Tolman Surface Tension Correction on Nucleation in Chemically Reacting Systems

This paper considers the effect of the Tolman surface tension correction on aerosol nucleation and growth in chemically reacting systems. The classical Becker-Doring-Zeldovich(BDZ) theory for homogeneous nucleation rates is modified to include the Tolman correction for the surface tension of small droplets. The modified expression for the nucleation rate is used to simulate aerosol nucleation and growth using the integral model of Friedlander. The Tolman correction is also incorporated into the discrete-sectional numerical algorithm of Rao and McMurry. It is shown that the nucleation rate is substantially increased when the Tolman correction is accounted for. The increase in nucleation rates is especially large for substances with large surface energies and large molecular volumes. Using reasonable values for δ, the Tolman coefficient, good agreement is obtained between theory and data for sulfuric acid number concentrations and size distributions in experiments involving SO2 photooxidation. While the agr...

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来源期刊

Aerosol Science and Technology 环境科学-工程：化工

CiteScore

8.40

自引率

7.70%

发文量

审稿时长

3 months

期刊介绍： Aerosol Science and Technology publishes theoretical, numerical and experimental investigations papers that advance knowledge of aerosols and facilitate its application. Articles on either basic or applied work are suitable. Examples of topics include instrumentation for the measurement of aerosol physical, optical, chemical and biological properties; aerosol dynamics and transport phenomena; numerical modeling; charging; nucleation; nanoparticles and nanotechnology; lung deposition and health effects; filtration; and aerosol generation. Consistent with the criteria given above, papers that deal with the atmosphere, climate change, indoor and workplace environments, homeland security, pharmaceutical aerosols, combustion sources, aerosol synthesis reactors, and contamination control in semiconductor manufacturing will be considered. AST normally does not consider papers that describe routine measurements or models for aerosol air quality assessment.