Adjoint Sensitivity Experiments of a Meso-β-scale Vortex in the Middle Reaches of the Yangtze River
A relatively independent and small-scale heavy rainfall event occurred to the south of a slow eastwardmoving meso-α-scale vortex.The analysis shows that a meso-β-scale system is heavily responsible for the intense precipitation.An attempt to simulate it met with some failures.In view of its small scale, short lifetime and relatively sparse observations at the initial time, an adjoint model was used to examine the sensitivity of the meso-β-scale vortex simulation with rrspect to initial conditions.The adjoint sensitivity indicates how small perturbations of initial model variables anywhere in the model domain can influence the central vorticity of the vortex.The largest sensitivity for both the wind and temperature perturbation is located below 700 hPa, especially at the low level.The largest sensitivity for the water vapor perturbation is located below 500 hPa, especially at the middle and low levels.The horizontal adjoint sensitivity for all variables is mainly located toward the upper reaches of the Yangtze River with respect to the simulated meso-β-scale system in Hunan and Jiangxi provinces with strong locality.The sensitivity shows that warm cyclonic perturbations in the upper reaches can have a great effect on the development of the meso-β-scale vortex.Based on adjoint sensitivity, forward sensitivity experiments were conducted to identify factors influencing the development of the meso-β-scale vortex and to explore ways of improving the prediction.A realistic prediction was achieved by using adjoint sensitivity to modify the initial conditions and implanting a warm cyclone at the initial time in the upper reaches of the river with respect to the meso-β-scale vortex, as is commonly done in tropical cyclone prediction.
mei-yu front heavy rainfall meso-β-scale vortex adjoint method sensitivity experiment
王智 高坤
国内会议
江苏宜兴
英文
267-281
2014-09-10(万方平台首次上网日期,不代表论文的发表时间)