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地形对2011年9月华西致灾暴雨强迫作用的数值模拟研究 总被引:1,自引:0,他引:1
运用GRAPES_Meso模式对2011年9月16-18日发生在陕西、四川的连续特大致洪暴雨过程进行数值模拟.通过对比3套敏感性试验结果,揭示了气流与地形相互作用对本次致灾暴雨的影响,结果如下:(1)16-18日在台风和蒙古高压共同影响下,850 hPa在黄、渤海形成偏东水汽通道,使大量水汽经华北平原输送至华西地区,气流被秦岭分割为南北两支,北支在秦岭北侧受到迎风坡阻挡,形成强迫抬升和水汽辐合中心;南支暖湿气流从东部灌入汉中平原,受到“喇叭口”地形挤压而辐合上升.(2)平原与高大山脉的交错相间地形导致条带状正负垂直运动带产生,在垂直方向上形成强烈的抽吸作用,加之该地区16-18日丰沛的水汽交汇,从而引发大范围强降水.(3)海拔高度与地表起伏度均对降雨有较大影响,在同样海拔情况下,地表起伏度越大,就越容易产生暴雨. 相似文献
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采用陕西及周边地区7213个雨量站资料,分析了2011年9月1-18日期间华西地区降水量分布特征,结果表明:该时段累计降水量是历史同期水平的2-3倍,持续时间长,致灾严重。降水主要分为4-6日、11日和16-18日3次大的过程。利用NCEP 1°×1°的资料分析3次过程的水汽和环流特征,表明暴雨区低层的主要水汽输送,除了偏南气流从川东一带向北输送外,还有偏东气流从华北平原南部一带向西输送。与3次降水过程对应,华西地区500 hPa有3次西风槽过境,700 hPa偏南风和850 hPa偏北风分别出现3个明显的控制时段;700 hPa偏南气流先期输送大量暖湿空气到华西地区,形成不稳定层结,当遇到偏北风输送的干冷空气楔入其下将其抬升时,叠加槽前的动力抬升作用和地形造成的风场辐合抬升,使得对流活动增强,不稳定能量释放,暴雨发生。稳定的环流形势(乌拉尔山阻高)导致特定地形下形成持续的不稳定层结以及动力抬升条件被不断重复满足,从而不断引发上升运动释放不稳定能量,这是2011年华西秋雨稳定持续的根本原因。 相似文献
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To comprehensively investigate characteristics of summer droughts and floods in the Yangtze River valley, a meteorological and hydrological coupling index (MHCI) was developed using meteorological and hydro- logical data. The results indicate that: (1) in representing drought/flood information for the Yangtze River valley, the MHCI can reflect composite features of precipitation and hydrological observations; (2) compre- hensive analysis of the interannual phase difference of the precipitation and hydrological indices is important to recognize and predict annual drought/flood events along the valley; the hydrological index contributes more strongly to nonlinear and continuity features that indicate transition from long-term drought to flood conditions; (3) time series of the MHCI from 1960-2009 are very effective and sensitive in reflecting annual drought/flood characteristics, i.e. there is more rainfall or typical flooding in the valley when the MHCI is positive, and vice versa; and (4) verification of the MHCI indicates that there is significant correlation between precipitation and hydrologic responses in the valley during summer; the correlation coefficient was found to reach 0.82, exceeding the 0.001 significance level. 相似文献
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