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Abstract
Using the high-resolution non-hydrostatic model ARPS (Advanced Regional Prediction System), the Typhoon Rananim (0414) was simulated by using the CINRAD Doppler radar data. The results before and after typhoon landfall show that model ARPS performs well to simulate the track, the variation of center pressure, as well as severe heavy rain of Rananim. Meanwhile, the simulated composite reflectivity was compared with the observed radar composite reflectivity. The numerical results reveal that the asymmetrical structure of Rananim plays an important role in its westward deflecting after landfall. The sensitivity simulation experiments of terrain effects on Rananim (0414) were also investigated, and the terrain of the southeastern China has important e ects on Rananim turning right slightly of its track and increasing its intensity obviously, but when typhoon is far away from the coastline, the terrain only impacts slightly on the storm intensity during its landfall. The results show that topographic lifting contributes greatly to
precipitation enhancement, and makes the distribution of precipitation more uneven.
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Citation
YU Zhenshou, XU Wenming, JI Chunxiao, ZHAO Fang, LOU Liyin. 2006: A Numerical Simulation Study of Typhoon Rananim(0414). Journal of Meteorological Research, 20(4): 500-511.
YU Zhenshou, XU Wenming, JI Chunxiao, ZHAO Fang, LOU Liyin. 2006: A Numerical Simulation Study of Typhoon Rananim(0414). Journal of Meteorological Research, 20(4): 500-511.
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YU Zhenshou, XU Wenming, JI Chunxiao, ZHAO Fang, LOU Liyin. 2006: A Numerical Simulation Study of Typhoon Rananim(0414). Journal of Meteorological Research, 20(4): 500-511.
YU Zhenshou, XU Wenming, JI Chunxiao, ZHAO Fang, LOU Liyin. 2006: A Numerical Simulation Study of Typhoon Rananim(0414). Journal of Meteorological Research, 20(4): 500-511.
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