Modeling New Particle Formation with Detailed Chemistry and Aerosol Dynamics in a Boreal Forest Environment

机译：博尔林环境中详细化学和气溶胶动力学建模新粒子形成

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We use the one-dimensional chemical-transport model SOSAA (model to Simulate the concentration of Organic vapors, Sulfuric Acid, and Aerosols) to study the complex processes of aerosols in the atmospheric boundary layer at a boreal forest site in southern Finland. With the detailed aerosol microphysics in SOSAA, we compared two theories for atmospheric nucleation. Results indicate that between the two theories, the organic nucleation mechanism works better than kinetic nucleation mechanism in Hyytiala, Finland. The model also suggests that a combination of different parameterizations may further improve the nucleation simulation. Compared to the measurements, the predicted particle number concentration by SOSAA is within a factor of 10 with a correlation coefficient of 0.68. The model captures 10 out of 11 observed event days in 2010.

机译：我们使用一维化学传输模型SOSAA（模型模拟有机蒸汽，硫酸和气溶胶的浓度），以研究芬兰南部北部森林地理位置的大气边界层气溶胶中的复杂过程。通过SOSAA的详细气溶胶微生物质，我们将两种理论与大气成核相比。结果表明，在两种理论之间，有机成核机制在芬兰Hyytiala的动力学成核机制更好。该模型还表明不同参数化的组合可以进一步改善成核模拟。与测量相比，SOSAA的预测粒子数浓度在10的10倍之下，相关系数为0.68。该模型在2010年捕获11个观察到的事件日中的10个。

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《International Conference on Nucleation and Atmospheric Aerosols》|2014年||共4页
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作者
Luxi Zhou; Michael Boy; Tuomo Nieminen; Ditte Mogensen; Sampo Smolander; Markku Kulmala;
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中图分类 TB9-53;
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Boundary layer modeling; particle formation and growth; aerosol dynamics;

机译：边界层建模;粒子形成和生长;气溶胶动力学;

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1. Modelling non-equilibrium secondary organic aerosol formation and evaporation with the aerosol dynamics, gas- and particle-phase chemistry kinetic multilayer model ADCHAM [J] . P. Roldin, A. C. Eriksson, E. Z. Nordin, Atmospheric chemistry and physics . 2014,第15期

机译：使用气溶胶动力学，气相和颗粒相化学动力学多层模型ADCHAM模拟非平衡二次有机气溶胶的形成和蒸发
2. Modelling non-equilibrium secondary organic aerosol formation and evaporation with the aerosol dynamics, gas- and particle-phase chemistry kinetic multilayer model ADCHAM [J] . P.Roldin, A. C.Eriksson, E. Z.Nordin, Atmospheric chemistry and physics . 2014,第15期

机译：利用气溶胶动力学，气相和颗粒相化学动力学多层模型ADCHAM模拟非平衡二次有机气溶胶的形成和蒸发
3. Modelling non-equilibrium secondary organic aerosol formation and evaporation with the aerosol dynamics, gas- and particle-phase chemistry kinetic multilayer model ADCHAM [J] . P.Roldin, A. C.Eriksson, E. Z.Nordin, Atmospheric chemistry and physics . 2014,第15期

机译：利用气溶胶动力学，气相和颗粒相化学动力学多层模型ADCHAM模拟非平衡二次有机气溶胶的形成和蒸发
4. Modeling New Particle Formation with Detailed Chemistry and Aerosol Dynamics in a Boreal Forest Environment [C] . Luxi Zhou, Michael Boy, Tuomo Nieminen, International Conference on Nucleation and Atmospheric Aerosols . 2014

机译：博尔林环境中详细化学和气溶胶动力学建模新粒子形成
5. Detailed heterogeneous chemistry implemented in a particle-resolved aerosol model. [D] . Kaiser, Jan Christopher. 2010

机译：在颗粒解析气溶胶模型中实现的详细异构化学。
6. Size distribution dynamics reveal particle-phase chemistry in organic aerosol formation [O] . Manabu Shiraiwa, Lindsay D. Yee, Katherine A. Schilling, 2013

机译：尺寸分布动力学揭示了有机气溶胶形成过程中的颗粒相化学
7. Modelling non-equilibrium secondary organic aerosol formation and evaporation with the aerosol dynamics, gas- and particle-phase chemistry kinetic multilayer model ADCHAM [O] . Roldin P., Eriksson A. C., Nordin E. Z., 2014

机译：使用气溶胶动力学，气相和颗粒相化学动力学多层模型ADCHAM模拟非平衡二次有机气溶胶的形成和蒸发
8. Dynamics, Energetics, and Structure of Microclusters: Elucidating the Physical Basis for Catalysis and Surface Chemistry, Reactions in Condensed Phases, and Aerosol-Particle Formation. Final Technical Report [R] . Castleman, A. W. 1982

机译：微观物质的动力学，能量学和结构：阐明催化和表面化学的物理基础，凝聚相的反应和气溶胶粒子的形成。最终技术报告

Modeling New Particle Formation with Detailed Chemistry and Aerosol Dynamics in a Boreal Forest Environment

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