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Abstract
Typhoon Winnie (1997) was one of the hurricanes that had extremely large eyewall ever recorded with
a diameter of eyewall reaching 370 km.Using the Penn State University/National Center for Atmospheric
Research mesoscale model MM5 with 3-km grid horizontal spacing on the finest nested mesh, Winnie was
successfully simulated in terms of track, intensity, eye and concentric eyewalls. The dynamic and thermal structures of concentric eyewalls were studied based on the model output. It was found that the concentric eyewalls and their surrounding wind elds were asymmetric in observation as well as in simulation. Winnie's outer eyewall was associated with a maximum wind ring, a warm moist ring, and a high vorticity ring. The inner eyewall was associated with a secondary maximum wind ring and a warm moist ring. Upward motion dominated the whole layer of inner eyewall and the area above 2-km altitude of the outer eyewall. Downward motion was found inside the eye and the moat. Radial inflow happened in the boundary layer of the outer eyewall and the moat, but radial outflow dominated the middle and upper levels of the outer eyewall.
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Citation
ZHANG Qinghong, GUO Chunrui. 2007: Typhoon Winnie (1997) with a Very Large Eye: High Resolution Numerical Simulation. Journal of Meteorological Research, 21(1): 114-120.
ZHANG Qinghong, GUO Chunrui. 2007: Typhoon Winnie (1997) with a Very Large Eye: High Resolution Numerical Simulation. Journal of Meteorological Research, 21(1): 114-120.
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ZHANG Qinghong, GUO Chunrui. 2007: Typhoon Winnie (1997) with a Very Large Eye: High Resolution Numerical Simulation. Journal of Meteorological Research, 21(1): 114-120.
ZHANG Qinghong, GUO Chunrui. 2007: Typhoon Winnie (1997) with a Very Large Eye: High Resolution Numerical Simulation. Journal of Meteorological Research, 21(1): 114-120.
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