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Dependence of Hurricane Intensity and Structures on Vertical Resolution and Time-Step Size
In view of the growing interests in the explicit modeling of clouds and precipitation, the effects of varyingvertical resolution and time-step sizes on the 72-h explicit simulation of Hurricane Andrew (1992) arestudied using the Pennsylvania State University/National Center for Atmospheric Research (PSU/NCAR)mesoscale model (i.e., MMS) with the finest grid size of 6 km. It is shown that changing vertical resolutionand time-step size has significant effects on hurricane intensity and inner-core cloud/precipitation, butlittle impact on the hurricane track. In general, increasing vertical resolution tends to produce a deeperstorm with lower central pressure and stronger three-dimensional winds, and more precipitation. Similareffects, but to a less extent, occur when the time-step size is reduced. It is found that increasing thelow-level vertical resolution is more efficient in intensifying a hurricane, whereas changing the upper-levelvertical resolution has little impact on the hurricane intensity. Moreover, the use of a thicker surface layertends to produce higher maximum surface winds. It is concluded that the use of higher vertical resolution,a thin surface layer, and smaller time-step sizes, along with higher horizontal resolution, is desirable tomodel more realistically the intensity and inner-core structures and evolution of tropical storms as well asthe other convectively driven weather systems.
作 者: Da-Lin ZHANG Xiaoxue WANG 作者單位: Department of Meteorology, University of Maryland, College Park, Maryland, 20742 USA 刊 名: 大氣科學(xué)進(jìn)展(英文版) ISTIC SCI 英文刊名: ADVANCES IN ATMOSPHERIC SCIENCES 年,卷(期): 2003 20(5) 分類號(hào): P4 關(guān)鍵詞: hurricane intensity vertical resolution numerical weather prediction【Dependence of Hurricane Intensity an】相關(guān)文章: