Impacts of the lowest model level height on tropical cyclone intensity and structure

被引:0
作者
Zhanhong Ma
Jianfang Fei
Xiaogang Huang
Xiaoping Cheng
机构
[1] PLA University of Science and Technology,College of Meteorology and Oceanography
来源
Advances in Atmospheric Sciences | 2014年 / 31卷
关键词
tropical cyclone; lowest model level; simulation;
D O I
暂无
中图分类号
学科分类号
摘要
Variable thicknesses in the lowest half-η model level (LML) are often used in atmospheric models to compute surface diagnostic fields such as surface latent and sensible heat fluxes. The effects of the LML on simulated tropical cyclone (TC) evolution were investigated in this study using theWeather Research and Forecasting (WRF) model. The results demonstrated notable influences of the LML on TC evolution when the LML was placed below 12 m. The TC intensification rate decreased progressively with a lowering of the LML, but its ultimate intensity change was relatively small. The maximum 10-m winds showed different behavior to minimum sea level pressure and azimuthally-averaged tangential winds, and thus the wind-pressure relationship was changed accordingly by varying the LML. The TC circulation was more contracted in association with a higher LML.
引用
收藏
页码:421 / 434
页数:13
相关论文
共 154 条
[41]  
García-Bustamante E(2009)How do outer spiral rainbands affect tropical cyclone structure and intensity? J. Atmos. Sci. 66 1250-1273
[42]  
Jordan C L(2010)Energy production, frictional dissipation, and maximum intensity of a numerically simulated tropical cyclone J. Atmos. Sci. 67 97-116
[43]  
Kain J S(1970)Profile relationships: The log-linear range, and extension to strong stability Quart. J. Roy. Meteor. Soc. 96 67-90
[44]  
Kepert J D(2001)Sensitivity of simulated regional surface thermal fluxes during warm advection snowmelt to selection of the lowest model level height J. Hydrometeor. 2 395-405
[45]  
Kepert J D(2009)A numerical investigation of the eyewall evolution in a landfalling typhoon Mon. Wea. Rev. 137 21-40
[46]  
Wang Y Q(2010)Sensitivity of tropical cyclone inner-core size and intensity to the radial distribution of surface entropy flux J. Atmos. Sci. 67 1831-1852
[47]  
Kieu C Q(2010)Sensitivity of the simulated tropical cyclone inner-core size to the initial vortex size Mon. Wea. Rev. 138 4135-4157
[48]  
Chen H(2011)A modeling study of Typhoon Nari (2001) at landfall: 2. Structural changes and terrain-induced asymmetries J. Geophys. Res. 116 D09112-1433
[49]  
Zhang D-L(2004)A multiscale numerical study of Hurricane Andrew (1992). Part VI: Small-scale inner-core structures and wind streaks Mon. Wea. Rev. 132 1410-128
[50]  
Kimball S K(2008)The impact of the PBL scheme and the vertical distribution of model layers on simulations of Alpine foehn Meteor. Atmos. Phys. 99 105-1609
12345678910