机构地区:[1]Shanghai Typhoon Institute, China Meteorological Administration [2]Laboratory of Typhoon Forecast Technique, China Meteorological Administration [3]Laboratory for Atmospheric Research, Department of Physics & Materials Science, City University of Hong Kong
出 处:《Advances in Atmospheric Sciences》2010年第2期356-370,共15页大气科学进展(英文版)
基 金:supported by the State 973 Program (2009CB421505);supported by the National Natural Science Foundation of China (Grant Nos. 40405012, 40830958 and 40705024);the Ministry of Science and Technology of China (Grant No. 2005DIB3J104);Shanghai Meteorological Bureau (Grant Nos. 2009ST11, MS200821)
摘 要:An observational analysis of satellite blackbody temperature (TBB) data and radar images suggests that the mesoscale vortex generation and merging process appeared to be essential for a tropical-depression-related heavy rain event in Shanghai, China. A numerical simulation reproduced the observed mesoscale vortex generation and merging process and the corresponding rain pattern, and then the model outputs were used to study the related dynamics through diagnosing the potential vorticity (PV) equation. The tropical depression (TD) was found to weaken first at lower levels and then at upper levels due to negative horizontal PV advection and diabatic heating effects. The meso-vortices developed gradually, also from the lower to the upper levels, as a result of positive horizontal PV advection and diabatic heating effects in the downshear left quadrant of the TD. One of these newly-generated vortices, V1, replaced the TD ultimately, while the other two, V2 and V3, merged due to the horizontal PV advection process. Together with the redevelopment of V1, the merging of V2 and V3 triggered the very heavy rain in Shanghai.An observational analysis of satellite blackbody temperature (TBB) data and radar images suggests that the mesoscale vortex generation and merging process appeared to be essential for a tropical-depression-related heavy rain event in Shanghai, China. A numerical simulation reproduced the observed mesoscale vortex generation and merging process and the corresponding rain pattern, and then the model outputs were used to study the related dynamics through diagnosing the potential vorticity (PV) equation. The tropical depression (TD) was found to weaken first at lower levels and then at upper levels due to negative horizontal PV advection and diabatic heating effects. The meso-vortices developed gradually, also from the lower to the upper levels, as a result of positive horizontal PV advection and diabatic heating effects in the downshear left quadrant of the TD. One of these newly-generated vortices, V1, replaced the TD ultimately, while the other two, V2 and V3, merged due to the horizontal PV advection process. Together with the redevelopment of V1, the merging of V2 and V3 triggered the very heavy rain in Shanghai.
关 键 词:mesoscale vortex tropical depression heavy rain potential vorticity
分 类 号:P444[天文地球—大气科学及气象学] TM852[电气工程—高电压与绝缘技术]
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