Shanghai Typhoon Institute. Shanghai 200030; Shanghai Typhoon Institute. Shanghai 200030; Shanghai Typhoon Institute. Shanghai 200030; Shanghai Typhoon Institute. Shanghai 200030
A tropical cyclone-marine mixed layer model including air-sea interaction is established to conduct numerical experiment with the effects of SST on the cyclone's intensity,Evidence suggests that with air-sea interaction involved,SST rise causes a drop of central pressure of the storm and SST impact on the intensity is weaker in the coupling case.Moreover,study is undertaken of the intensity variation of another tropical cyclone moving in the cyclone's cold-tail sector,with the results in good agreement with the observational fact.
DUAN Yihong, QIN Zenghao, GU Jianfeng, LI Yongping. 2000: NUMERICAL STUDY ON THE EFFECTS OF SEA SURFACE TEMPERATURE ON TROPICAL CYCLONE INTENSITY-PART Ⅱ:COUPLING MODEL AND EXPERIMENT*. Journal of Meteorological Research, 14(2): 193-199.
DUAN Yihong, QIN Zenghao, GU Jianfeng, LI Yongping. 2000: NUMERICAL STUDY ON THE EFFECTS OF SEA SURFACE TEMPERATURE ON TROPICAL CYCLONE INTENSITY-PART Ⅱ:COUPLING MODEL AND EXPERIMENT*. Journal of Meteorological Research, 14(2): 193-199.
DUAN Yihong, QIN Zenghao, GU Jianfeng, LI Yongping. 2000: NUMERICAL STUDY ON THE EFFECTS OF SEA SURFACE TEMPERATURE ON TROPICAL CYCLONE INTENSITY-PART Ⅱ:COUPLING MODEL AND EXPERIMENT*. Journal of Meteorological Research, 14(2): 193-199.
Citation:
DUAN Yihong, QIN Zenghao, GU Jianfeng, LI Yongping. 2000: NUMERICAL STUDY ON THE EFFECTS OF SEA SURFACE TEMPERATURE ON TROPICAL CYCLONE INTENSITY-PART Ⅱ:COUPLING MODEL AND EXPERIMENT*. Journal of Meteorological Research, 14(2): 193-199.