祁连山冬季降雪个例模拟分析(I): 降雪过程和地形影响_stmopen 关键词】: 祁连山 地形 降雪 微物理过程 [gap=1488]Keywords】: Qilian mountains,Terrain,Snowfall,Microphysical process
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From analyses on cloud microphysical process we conclude: ice phase played an important role on the formation and development of mei-yu front rainfall.
通过对云内微物理过程的详细分析,得出结论:冰相过程在梅雨锋降水中起着主要作用。 本文还分析了降水粒子形成及增长中起主要作用的源汇项,以期更深入的了解梅雨锋云系内部的微物理过程。
参考来源 - “99.6”梅雨锋降水云物理过程研究·2,447,543篇论文数据,部分数据来源于NoteExpress
模式考虑了黄沙的分谱机理及可能的微物理过程。
It considers the parameterization of dry and wet deposition, the spectrum of yellow-sand and the micro-physical process in detail.
层状云由于在水平上较为均匀, 可以用一维模式来模拟其云微物理过程。
The stratiform cloud can be simulated with a one-dimensional model, duo to its uniform horizontal distribution of physical characters.
分析了改进模式的催化功能及人工冰晶的微物理过程及其在催化防雹中的作用。
After analyzing the seeding function of the improved model and the microphysics processes of seeding ice crystal, as well as its effect in hail suppression.
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