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THE STUDY OF STORM RAINFALL CAUSED BY INTERACTION BETWEEN THE NON-ZONAL HIGH LEVEL JET STREAK AND TYPHOON IN THE DISTANCE 总被引:1,自引:1,他引:1
In this paper, statistics were analyzed concerning correlation between the storm rainfall far from
typhoon and non-zonal upper-level jet stream. The results show that the jet stream at 200 hPa is constantly SW
(90.2 %) during the period in which storm rainfall occurs. Rainfall area lies in the right rear regions of the jet
axes. While the storm intensifies, the jet tends to be stronger and turn non-zonal. With the MM4 model, numerical
simulation and diagnosis were carried out for Typhoon No.9711 (Winnie) on August 19 to 20, 1997.
The distant storm rainfall is tightly correlative to the jet and low-level typhoon trough. The divergence field of
jet is related to the v component. The upper level can cause the allobaric wind convergence at low level. This is
the result of the form of low-level typhoon trough and the strength of the storm. By scale analysis, it is found
that there is a branch of middle scale transverse inverse circulation in the right entrance regions behind the jet
below the 300-hPa level, which is very important to the maintenance and strengthening of storm rainfall. This
branch of inverse circulation is relative to the reinforcement of jet's non-zonal characteristics. From the field of mesoscale divergence field and non-zonal wind field, we know that the stronger symmetry caused by transverse
circulation in the two sides of the jet, rainfall’s feedback and reinforcement of jet’s non-zonal characteristics
had lead to positive feedback mechanism that was favorable of storm rainfall’s strengthening. 相似文献
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