摘要
[ Objective] The research aimed to analyze rainstorm falling zone in Guangxi during influence period of the 0906 typhoon " Molave". [ Method] For the heavy precipitation falling zone in southern and central parts of Guangxi after 0906 typhoon " Molave" landed, 500 hPa circula- tion, physical quantity field, satellite cloud chart and terrain effect were analyzed. [ Result] 500 hPa subtropical high caused asymmetry of the "Me- lave" circulation, playing a key role for the strong precipitation falling zone in Guangxi. Physical quantity field analysis pointed out that after " Me- lave" landed, water vapor convergence center was in southeast Guangxi, providing adequate moisture condition for the heavy precipitation in south- ern and central parts of Guangxi. The maximum positive vorticity center appeared at the middle and low layers in southern and central parts of Guangxi for a long time. At 200 hPa, there was a maximum divergence center. At 700 hPa, there was a maximum convergence center. High-level divergence and low-level convergence created conditions for heavy precipitation in the region. From satellite cloud chart, the heavy precipitation fall- ing zone related to asymmetric structure of the ~ Molave". In addition, uplifting effect of the terrain was conducive to occurrence of the large precipi- tation. [ Conclusion] The research provided reference for reduction and prevention of this kind of heavy precipitation.
[ Objective] The research aimed to analyze rainstorm falling zone in Guangxi during influence period of the 0906 typhoon " Molave". [ Method] For the heavy precipitation falling zone in southern and central parts of Guangxi after 0906 typhoon " Molave" landed, 500 hPa circula- tion, physical quantity field, satellite cloud chart and terrain effect were analyzed. [ Result] 500 hPa subtropical high caused asymmetry of the "Me- lave" circulation, playing a key role for the strong precipitation falling zone in Guangxi. Physical quantity field analysis pointed out that after " Me- lave" landed, water vapor convergence center was in southeast Guangxi, providing adequate moisture condition for the heavy precipitation in south- ern and central parts of Guangxi. The maximum positive vorticity center appeared at the middle and low layers in southern and central parts of Guangxi for a long time. At 200 hPa, there was a maximum divergence center. At 700 hPa, there was a maximum convergence center. High-level divergence and low-level convergence created conditions for heavy precipitation in the region. From satellite cloud chart, the heavy precipitation fall- ing zone related to asymmetric structure of the ~ Molave". In addition, uplifting effect of the terrain was conducive to occurrence of the large precipi- tation. [ Conclusion] The research provided reference for reduction and prevention of this kind of heavy precipitation.
基金
Supported by Meteorological Science Research and Technology Development Item in Guangxi (Guiqike 200904)
