关键词: GPM；台风&ldquo, 杜苏芮&rdquo, ；降水率；降水类型；微波亮温

Abstract:

Based on the 2A-DPR, 1C-GMI products of GPM (global precipitation measurement) and the precipitation data of 30 automatic meteorological stations in Sanya of Hainan Province, the precipitation rate near surface, rain top height, precipitation type, microwave signal, cloud water path, ice water path and the 3D structure of precipitation of the 19th typhoon Doksuri in 2017 were analyzed. The results show that at the strengthening stage of the typhoon Doksuri, the precipitation rate near surface was mainly less than 20.0 mm·h-1, and in some parts it ranged from 40.0 to 100.0 mm·h-1, and the maximum of it was over 299.8 mm·h-1. The height of rain top was between 6 and 10 km, and the maximum height of the rain top reached 12 km.The higher value of precipitation rate near surface and rain top height appeared in the spiral cloud band outside the typhoon. The stratiform precipitation ratio was 68.5%,  and the convective precipitation ratio was 27.1%, while the average convective precipitation rate was 3.2 times of the stratiform precipitation rate. The low frequency (18.9 GHz), intermediate frequency (89.0 GHz) and high frequency (183±8 GHz) microwave brightness temperatures reflected that there were a large number of water and ice particles in the typhoon, and the high frequency channel was more sensitive to detection of the ice particles. At the developing stage of the typhoon, there were a lot of precipitation columns in the spiral cloud belt of the typhoon. The higher value of the precipitation rate near surface corresponded to the denser and higher precipitation columns.

Key words:  , GPM；typhoon Doksuri；precipitation rate；precipitation type；microwave brightness temperature