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相似路径热带气旋“海棠”(0505)和“碧利斯”(0604)暴雨对比分析 总被引:12,自引:3,他引:9
一般认为相似路径台风的影响大致相似,但实际上相似路径台风的风雨分布尤其是暴雨分布往往有很大差异,因此,对相似路径热带气旋“海棠”(0505)和“碧利斯”(0604)暴雨成因的对比分析有助于加强台风暴雨发生机制的认识和预报。“海棠”(0505)和“碧利斯”(0604)逐日降水分布对比分析表明,两者登陆前降水分布类似,而登陆后降水分布差异比较大。利用NCEP/GFS 1 °×1 °分析资料对热带气旋登陆前后天气形势、水汽通量和水汽通量散度进行诊断分析,结果表明:“海棠”(0505)和“碧利斯”(0604)登陆前引起浙闽沿海地区大降水主要是热带气旋外围偏东气流和地形共同影响下形成。“海棠”登陆后,维持在浙江东部沿海东南风急流不断输送水汽到“海棠”倒槽内引起浙东南沿海强降水,深入内陆后,降水主要由“海棠”自身环流携带的水汽辐合引起的,降水比沿海地区明显减弱;而“碧利斯”登陆后,有明显的南海季风环流输送水汽并入热带气旋南侧环流,在其南侧形成偏南风急流,使南侧水汽输送得到明显加强,造成“碧利斯”南侧水汽通量辐合,北侧水汽通量辐散,南侧降水比北侧降水强很多;深入内陆后,“碧利斯”环流仍维持并引导北方槽后弱冷空气渗透到其西南侧,使南侧降水进一步增幅。本文还探讨了包括热带气旋外核在内区域平均垂直风切变和热带气旋强降水落区的关系,结果表明:“海棠”和“碧丽斯”大暴雨落区均对应于暴雨区区域平均垂直风切矢量左侧水汽通量散度负值区。“海棠”垂直风切变矢量平行于移动路径并指向移动路径后方是造成“海棠”强降水分布在其移动路径右侧的重要原因,“碧利斯”垂直风切变矢量平行于移动路径并指向移动路径前方是造成“碧利斯”强降水分布在其移动路径左侧的重要原因。因此,利用垂直风切结合水汽输送条件可以作热带气旋大暴雨落区预报可能是一种比较有效的方法。 相似文献
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台风圣帕引发浙南强龙卷的过程分析 总被引:1,自引:0,他引:1
通过形势背景场和物理量场结合卫星云图的分析,对0709号台风圣帕引发浙南强龙卷过程的发生条件进行探讨,采用多普勒雷达回波特征分析研究强龙卷生成的机制。分析结果表明,圣帕在台湾海峡快速减弱时,其低层的冷心结构及风垂直切变等有利于在台风外围发生龙卷。台风龙卷的发生动力因子起主要作用,热力稳定度不是主导因素。在台风外围的强雷暴单体中发生的龙卷,可以从发生前的雷达风廓线表征的底层风切变,雷暴单体强度变化和中尺度气旋的发生等特征上得到短时的预警信息。 相似文献
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It is generally thought that the influence of comparable track typhoons is approximately similar,
but in fact their wind and especially their rainstorm distribution are often very different. Therefore, a
contrastive analysis of rainstorms by tropical cyclones (TCs) Haitang (0505) and Bilis (0604), which are of
a similar track, is designed to help understand the mechanism of the TC rainstorm and to improve
forecasting skills. The daily rainfall of TC Haitang (0505) and Bilis (0604) is diagnosed and compared.
The result indicates that these two TCs have similar precipitation distribution before landfall but different
precipitation characteristics after landfall. Using NCEP/GFS analysis data, the synoptic situation is
analyzed; water vapor transportation is discussed regarding the calculated water vapor flux and divergence.
The results show that the heavy rainfall in the Zhejiang and Fujian Provinces associated with Haitang
(0505) and Bilis (0604) before landfall results from a peripheral easterly wind, a combination of the
tropical cyclone and the terrain. After landfall and moving far inland of the storm, the precipitation of
Haitang is caused by water vapor convergence carried by its own circulation; it is much weaker than that in
the coastal area. One of the important contributing factors to heavy rainstorms in southeast Zhejiang is a
southeast jet stream, which is maintained over the southeast coast. In contrast, the South China Sea
monsoon circulation transports large amounts of water vapor into Bilis – when a water-vapor transport belt
south of the tropical cyclone significantly strengthens – which strengthens the transport. Then, it causes
water vapor flux to converge on the south side of Bilis and diverge on the north side. Precipitation is much
stronger on the south side than that on the north side. After Bilis travels far inland, the cold air guided by a
north trough travels into the TC and remarkably enhances precipitation. In summary, combining vertical
wind shear with water vapor transportation is a good way to predict rainstorms associated with landing
tropical cyclones. 相似文献
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台风"凤凰"(0808)和"诺瑞丝"(8012)路径相似,但降水分布不同,"凤凰"暴雨分布在路径左右两侧,而"诺瑞丝"暴雨分布在路径左侧。文章从湿位涡和垂直风切变角度对这两个路径相似台风暴雨进行了诊断分析。结果表明:无论是"凤凰",还是"诺瑞丝"台风暴雨与湿位涡和垂直风切变都有较一致对应关系,强降水位于垂直风切变矢量左侧,垂直风切变矢量与移动路径呈不同夹角时,强降水分布在移动路径不同方位。湿位涡正压项(MPV1)负值区和斜压项(MPV2)正值区相叠加对应强降水落区,而且叠加区内MPV2越大,降水强度也越强。因此,在实际台风预报中,可以结合湿位涡和垂直风切变综合分析来提高预测强降水落区准确性。 相似文献
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