2013年7月21-22日陕西省大暴雨天气诊断分析
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摘要
为进一步提高陕西省暴雨的预报水平,利用常规气象资料、NCEP资料和卫星云图资料,对2013年7月21-22日陕西省发生区域性暴雨过程的天气形势、物理因子进行诊断分析,结果表明:500 hPa西风槽配合700 hPa切变线以及低空西南急流是本次过程的主要影响系统,暴雨落区对应500 hPa西风槽附近的上升区,低空急流的左前侧。西太平洋副热带高压在低槽东移过程中有明显西伸加强的过程,进一步加深了低槽,使降水增强。暴雨发生所需的水汽主要来源于南海,水汽辐合中心与强对流云团有很好的对应。暴雨发生所需的能量来自于中低层对流不稳定能量的释放,并且暴雨的发生与暴雨落区北侧中高层"干入侵"有关,暴雨区低层存在着对流不稳定。
In order to improve the forecast ability about the rainstorm in Shanxi province, the circulation background and physical factors of the regional rainstorm in Shanxi province on July 2013 21-22 are diagnosed based on conventional meteorological data, NCEP data and satellite cloud images. The result shows that the rainstorm is affected by 500 hPa westerly trough, 700 hPa shear line and low-level southwest jet. The rainstorm area is mainly located in the rising zone near the 500 hPa westerly trough, and the left front side of the low-level jet. The West Pacific subtropical high has a markedly enhanced westward process during the eastward movement of the trough, further deepening the low trough and increasing precipitation. The abundant water vapor needed for rainstorm occurs mainly from the South China SeaMoreover, the water vapor convergence center is in good correspondence with the strong convective cloud cluster. The rainstorm occurred in the energy required from the low level of convective instability energy release. At the same time, the occurrence of rainstorm is related to the "dry intrusion" of the upper and middle levels in the north side of the rainstorm area, and the rainstorm convective instability.
In order to improve the forecast ability about the rainstorm in Shanxi province, the circulation background and physical factors of the regional rainstorm in Shanxi province on July 2013 21-22 are diagnosed based on conventional meteorological data, NCEP data and satellite cloud images. The result shows that the rainstorm is affected by 500 hPa westerly trough, 700 hPa shear line and low-level southwest jet. The rainstorm area is mainly located in the rising zone near the 500 hPa westerly trough, and the left front side of the low-level jet. The West Pacific subtropical high has a markedly enhanced westward process during the eastward movement of the trough, further deepening the low trough and increasing precipitation. The abundant water vapor needed for rainstorm occurs mainly from the South China SeaMoreover, the water vapor convergence center is in good correspondence with the strong convective cloud cluster. The rainstorm occurred in the energy required from the low level of convective instability energy release. At the same time, the occurrence of rainstorm is related to the "dry intrusion" of the upper and middle levels in the north side of the rainstorm area, and the rainstorm convective instability.
引文
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[12] 牛乐田.陕西中部一次区域性暴雨天气过程诊断分析[J].陕西气象,2009(1):14-17.
[13] 刘勇.陕西一次槽前强对流风暴的诊断分析[J].高原气象,2006,25(4):687-695.
[14] 胡燕平,单铁良,殷广亚,等.2008年河南黄淮地区暴雨过程个例分析[J].气象科学,2009,29(6):821-826.
[15] 刘开宇,赵重安,牟佳,等.贵州暴雨的湿位涡诊断分析[J].贵州气象,2005,29(6):16-18.
[2] 鲍名.近50年我国持续性暴雨的统计分析及其大尺度环流背景[J].大气科学,2007,31(5):779-792.
[3] 康岚,朱克云,张杰,等.引发四川盆地区域性暴雨的高原MCS特征分析[J].成都信息工程大学学报,2017,32(4):402-408.
[4] 高梦醒,肖天贵.基于卫星云图对四川盆地东北部“9.13”暴雨特征分析[J].成都信息工程大学学报,2016,31(1):102-109.
[5] 张弘,侯建忠,乔娟.陕西暴雨若干特征的综合分析[J].灾害学,2011,26(1):70-74.
[6] 郭大梅,慕建利,刘瑞芳,等.陕西暴雨个例倾斜涡度发展和干侵入分析[J].陕西气象,2009(6):5-8.
[7] 马晓华.2007年8月陕西一次暴雨过程的研究[D].南京:南京信息工程大学,2011.
[8] 郭大梅, 许新田,刘勇,等.陕西中南部一次突发性大暴雨过程分析[J].气象,2008,34(9):40-46.
[9] 卢珊,贺皓,李建科,等.2011年7月上旬陕西两次暴雨过程对比分析[J].陕西气象,2012(2):7-12.
[10] 白涛,李崇银,王铁,等. 干侵入对陕西“2008.07.21”暴雨过程的影响分析[J].高原气象,2013,32(2):345-356.
[11] 刘瑞芳,李萍云,陈小婷,等.一次中尺度对流复合体致洪暴雨成因分析[J].成都信息工程学院学报,2012,27(3):306-313.
[12] 牛乐田.陕西中部一次区域性暴雨天气过程诊断分析[J].陕西气象,2009(1):14-17.
[13] 刘勇.陕西一次槽前强对流风暴的诊断分析[J].高原气象,2006,25(4):687-695.
[14] 胡燕平,单铁良,殷广亚,等.2008年河南黄淮地区暴雨过程个例分析[J].气象科学,2009,29(6):821-826.
[15] 刘开宇,赵重安,牟佳,等.贵州暴雨的湿位涡诊断分析[J].贵州气象,2005,29(6):16-18.
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