Simulating the Compositional Distribution Evolution of Drop with the Flux Model

机译：用磁通模型模拟下降的组成分布演化

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The compositional distribution of aerosol-cloud drop particles is an important factor to assess their climatic impact, since it governs their chemical reactivity, cloud condensation nuclei activity, and radiative properties. To investigate the compositional distribution evolution of two-component aerosol-cloud drop, the two-component flux method (TFM) of Bott A.[1] is employed to simulate the coagulation. To illustrate its effectiveness, with this method, we compared analytical and numerical results for the constant kernel with exponential initial condition. The results of simulating the Golovin kernel and the hydrodynamic kernel with exponential initial condition showed the compositional distribution tends to be the fixed pattern without the initial influence.

机译：气溶胶云下降颗粒的组成分布是评估其气候撞击的重要因素，因为它控制了它们的化学反应性，云凝结核活性和辐射性能。为了研究双组分气溶胶云下降的组成分布演化，第A的双组分助焊法（TFM）。[1] 采用模拟凝血。为了说明其有效性，通过这种方法，我们将恒定内核的分析和数值结果与指数初始条件进行比较。模拟Golocin核和具有指数初始条件的流体动力核的结果表明，组合物分布趋于固定图案而没有初始影响。

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来源
《World Congress on Particle Technology》|2015年||共9页
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作者
Manli Yang; Zhiming Lu; Jie Shen;
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正文语种
中图分类粒子物理学;
关键词
compositional distribution; two-component coagulation; two-component flux method; water droplet size distribution;

机译：组成分布;双组分凝固;双组分助焊法;水滴尺寸分布;

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4. Simulating the Compositional Distribution Evolution of Drop with the Flux Model [C] . Manli Yang, Zhiming Lu, Jie Shen World Congress on Particle Technology . 2015

机译：用磁通模型模拟下降的组成分布演变
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Simulating the Compositional Distribution Evolution of Drop with the Flux Model

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