Laboratory study of H2SO4/H2O nucleation using a new technique – a laminar co-flow tube

T. Trávníčková, Lenka Škrabalová, J. Havlica, P. Krejci, J. Hrubý, V. Ždímal
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引用次数: 2

Abstract

Abstract Nucleation of aerosol particles from gaseous precursors is an important stage in the formation of atmospheric secondary aerosols or in industrial applications, particularly coal burning boilers. We introduce a novel laboratory device for studying binary or ternary nucleation – a laminar co-flow tube (LCFT) – and provide first data for the H2SO4/H2O system, showing that LCFT is able to cover a wide range of nucleation rates. The experimental set-up and the underlying transport processes are explained. Advantages of LCFT over methods employing turbulent mixing are suppression of wall losses and an accurate mathematical model. The determined nucleation rates are by about two orders of magnitude lower than typical literature values. Results of various nucleation experiments often show systematic differences unexplained by the present level of knowledge. Introduction of the LCFT technique based on a well-defined laminar diffusion process may help to identify the method-related biases.
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层流共流管对H2SO4/H2O成核的实验研究
气体前体气溶胶颗粒成核是大气二次气溶胶形成或工业应用中的一个重要阶段,特别是燃煤锅炉。我们介绍了一种用于研究二元或三元成核的新型实验室设备-层流共流管(LCFT),并提供了H2SO4/H2O体系的第一个数据,表明LCFT能够覆盖很宽的成核速率范围。解释了实验装置和潜在的输运过程。与采用湍流混合的方法相比,LCFT的优点是抑制了壁面损失和精确的数学模型。测定的成核速率比典型的文献值低约两个数量级。各种成核实验的结果经常显示出系统的差异,这是目前的知识水平无法解释的。引入基于定义良好的层流扩散过程的LCFT技术可能有助于识别与方法相关的偏差。
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