摘要
文章介绍了国家气象中心的台风路径数值预报试验模式[1]和新开发的改进物理过程参数化方案,对1992年的5个台风个例初步试验结果表明:改进物理过程参数化模式对台风路径和台风强度的预报比简单物理过程模式有明显提高,24h和48h台风中心位置预报误差分别为188km和337km,比原模式减小38km和109km;48h台风中心气压与实况之差平均减小3hPa.
A new package of parameterization of sub-scale physical processes has been performed for the model of typhoon track prediction at Numerical Meteorological Center (NMC),Beijing. Five cases of typhoons, which happened during the summer 1992(ELI and JANIS), were chosen for the numerical simulations. In comparison of the results obtained by the performed physical processes schemes with those obtained by the old simpler schemes, it is shown that either in typhoon track forecasting or in typhoon intensity prediction, the new schemes are superior to the simpler schemes. In fact, the mean errors of 24h and 48 h typhoon central position forecastings are 188 km and 337 km for the new schemes, respectively, and 226 km and 446 km for the simpler schemes respectively. The mean deviation of 48 h predicted central pressures from the observed ones is 23 hpa for the new scheme, and 26 hpa for the simpler scheme.
出处
《应用气象学报》
CSCD
北大核心
1996年第1期1-8,共8页
Journal of Applied Meteorological Science
基金
国家科委85-906项目基金
关键词
物理过程
参数化
台风
路径
数值预报
风预报
Parameterization of physical processes
Typhoon track
Numerical forecasting
