摘要
用中尺度数值模式(MM5v3.7)模拟了2005年6月25—26日河南一次强降水天气过程。模式计算的整层积分所有水凝物总含水量、模拟的雷达回波特征、24小时雨量分布、强降水阶段雨量时变特征与实况对比均具有比较好的模拟能力,在此基础上利用模式输出的资料分析了强降水形成的湿热力动力条件、降水区不同位置不稳定指数以及强降水区各种水凝物随时间的变化,并用Reisner霰方案计算出的雪、霰、冰晶、雨水、云水比含量资料,对比分析了降水初生和显著增强两个阶段云中的微物理结构特征的差异。
Using the fifth-generation PSU/NCAR Meso-scale Model (MM5V3.7), a rainstorm on June 25 to 26, 2005 in Henan Province is successfully simulated. The output of the model such as integrated hydrometeor, the Doppler Radar echo, and the 24-hour precipitation are very the same like the fact. Based on the good results of the model, the dynamic and thermodynamic con- ditions, the changes of the instability index in two different areas and the hydrometeor changes are analyzed. Besides, the differences of the microphysical structures characteristics in the different phases of the precipitation process are analyzed by using the quality content of snow (Qs), graupel (Qg), ice (Qi), rain (Qr), and cloud water (Qc) calculated by Reisner microphysical schemes.
出处
《气象》
CSCD
北大核心
2007年第4期15-22,I0001,共9页
Meteorological Monthly
基金
国家十一五攻关<人工增雨关键技术和装备的研究>项目<人工增雨信息处理技术研究>(2006BAC12B07)
关键词
云
降水
中尺度数值模拟
MM5
不稳定指数
cloud precipitation meso-scale numerical simulation MM5 instability index