| 1. | The storm rainfall during the jianghuai meiyu period is one of china ' s representative meteorologic disasters
江淮梅雨暴雨是我国典型的气象灾害之一。 |
| 2. | Analysis of satellite image characters of severe storm rainfall during the flood of yangtze river in 1998
1998年长江洪水大暴雨的卫星云图分析1998年长江洪水大暴雨的卫星云图分析 |
| 3. | The causes and prediction of the persistent storm rainfall and flooding disaster in china li zengzhong , cheng minghu , zeng xiaoping
中国持续暴雨及洪涝灾害的成因与预测[李曾中,程明虎,曾小苹] |
| 4. | The causes and prediction of the persistent storm rainfall and flooding disaster in china ( li zengzhong , cheng minghu , zeng xiaoping )
中国持续暴雨及洪涝灾害的成因与预测[李曾中,程明虎,曾小苹] |
| 5. | Abstract : the numerical simulation and experiments of a storm rainfall in south china are investigated by limited ? area model mm4
文摘:本文利用有限区域数值预报模式删mm4对一次华南暴雨过程进行了数值模拟和试验。 |
| 6. | The elements of vorticity , divergence , specific humidity , moisture flux divergence and k index etc . were benefited to the form and development of storm rainfall over the rainfall region
降水区上空的涡度、散度、比湿、水汽通量散度、 k指数等要素有利于暴雨的形成和发展。 |
| 7. | Using the new generation mesoscale model of the weather research and forecast ( wrf ) model , the mesoscale numerical simulation of the heavy storm rainfall of the jianghuai mei - yu front during 4 july 2003 was carried out
利用美国新一代中尺度天气和研究数值模式( wrf ) ,对发生在2003年7月4日的江淮梅雨强暴雨过程进行了数值模拟。 |
| 8. | By using conventional observation data , satellite cloud data and t213 numerical analysis production , the weather process of the storm rainfall and strong wind from december 3 to 5 in 2004 over zhoushan city is analyzed
摘要应用卫星云图、常规观测资料及t213数值分析产品,分析了2004年12月3 ~ 5日发生在浙江东部地区的暴雨和舟山市沿海的大风过程。 |
| 9. | Diagnostic analysis are carried out in the meiyu storm rainfall process from 00ut of 20th july to 00ut of 01st august 1998 in this study . results showed that the patterns in high benifit to this rainfall process
本文首先对98年7月20日00时~ 8月1日00时的梅雨暴雨的环流形势和降水要素进行了实况的诊断分析,结果表明:高空环流形势有利于该段降水。 |
| 10. | The results show that mesoscale low level jet , the perturbation in the high level troposphere can enhance and accelarate occurrence and development of mesoscale system ; convergence of low level and divergence of higher level are dynamical condition of storm rainfall system
本文的研究结果表明,中尺度低空急流、高空扰动对中尺度低涡系统的发生发展有加强和促进作用;低层辐合和高层辐散是降水系统的发展的动力条件。 |
