%0 Journal Article
%T 天山山区夏季强降水过程GPS可降水量演变特征分析
Analysis on the Evolutionary Characteristics of GPS Precipitable Water Vapor during Summer Heavy Precipitation in Tianshan Mountain
%A 杨柳
%A 赵战成
%A 周雪英
%J Journal of Water Resources Research
%P 154-163
%@ 2166-5982
%D 2019
%I Hans Publishing
%R 10.12677/JWRR.2019.82018
%X
选取伊宁、巴仑台、天池和巴里坤作为研究天山山区夏季强降水过程GPS可降水量演变特征的指标站,利用4站的GPS-PWV和降水资料,分析了夏季强降水过程中GPS-PWV的演变特征。结果表明:1) 强降水出现前GPS-PWV有1~3天的明显抬升过程,且小时增量均有1~3次超过2 mm的急剧增长,GPS-PWV最大值各有不同,其中伊宁最大;2) 强降水通常出现在GPS-PWV高于平均值时,GPS-PWV上升阶段开始,降水后期GPS-PWV下降仍维持较弱降水,GPS-PWV降至平均值以下可以作为判断降水是否结束的标准,降水持续时间与GPS-PWV高值区维持时间较为一致;最大小时雨强基本都在GPS-PWV最大值出现后产生;3) 在不同类型天气过程影响下的强降水过程GPS-PWV演变特征有所不同。
The Yining, Baluntai, Tianchi and Balikun were selected as index stations to study the characteristics of GPS precipitation in summer precipitation in the Tianshan Mountains. GPS-PWV and precipitation data from 4 stations were used to analyze the evolution characteristics of GPS-PWV during the summer heavy precipitation. The results show that: 1) Before the occurrence of heavy precipitation, GPS-PWV has a significant uplifting period of 1~3 days, and the hourly increments have a rapid increase of more than 2 mm for 1~3 times. The maximum GPS-PWV values are different, among which Yining is the largest. 2) Heavy precipitation usually occurs when the GPS-PWV is higher than the average, the GPS-PWV rise phase starts, and the GPS-PWV decline maintains weak precipitation at the end of the precipitation; GPS-PWV below the average value can be used as a criterion for judging whether or not precipitation is over. Precipitation duration is consistent with GPS-PWV high value area maintenance time; the maximum hourly rainfall intensity is basically produced after the GPS-PWV maximum occurs. 3) The evolutionary characteristics of GPS-PWV during the heavy precipitation process under different types of weather processes are different.
%K GPS-PWV,天山山区,夏季强降水,降水量
Precipitable Water Vapor Derived from Ground-Based GPS
%K Tianshan Mountains
%K Heavy Precipitation in Summer
%K Precipitation
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=29706