气象学报
氣象學報
기상학보
ACTA METEOROLOGICA SINICA
2014年
6期
1218-1230
,共13页
卢冰%史永强%王光辉%岳斌
盧冰%史永彊%王光輝%嶽斌
로빙%사영강%왕광휘%악빈
强下坡风%过渡气流%临界层%逆温层
彊下坡風%過渡氣流%臨界層%逆溫層
강하파풍%과도기류%림계층%역온층
Severe downslope wind%Transitional flow%Critical layer%Inversion layer
利用美国中尺度数值模式 WRF 对2013年3月7—8日克拉玛依强风进行了模拟,对下坡风发生、发展和结束3个阶段的三维结构特征进行了分析,并由此提出克拉玛依强下坡风的形成机制模型:上游地区出现中高层西南风、低层西北风并伴有强冷平流的配置,当风速不断增大时,气流能够翻越加依尔山在背风坡侧形成重力波,重力波相位向气流上游方向倾斜产生非线性效应,促进了波不稳定区域的形成并导致波破碎,形成湍流活跃层,不断把上层的能量向下传播;克拉玛依中低层形成三层夹心的大气层结稳定度分布,出现明显的过渡气流带从而导致强下坡风的形成;南北风分量在低层和中层符号相反,形成了临界层,不断吸收上层波能量并向地面传送,强下坡风暴不断维持发展。最后利用2006—2012年克拉玛依33个强下坡风过程中的探空观测资料对提出的形成机制进行了验证。
利用美國中呎度數值模式 WRF 對2013年3月7—8日剋拉瑪依彊風進行瞭模擬,對下坡風髮生、髮展和結束3箇階段的三維結構特徵進行瞭分析,併由此提齣剋拉瑪依彊下坡風的形成機製模型:上遊地區齣現中高層西南風、低層西北風併伴有彊冷平流的配置,噹風速不斷增大時,氣流能夠翻越加依爾山在揹風坡側形成重力波,重力波相位嚮氣流上遊方嚮傾斜產生非線性效應,促進瞭波不穩定區域的形成併導緻波破碎,形成湍流活躍層,不斷把上層的能量嚮下傳播;剋拉瑪依中低層形成三層夾心的大氣層結穩定度分佈,齣現明顯的過渡氣流帶從而導緻彊下坡風的形成;南北風分量在低層和中層符號相反,形成瞭臨界層,不斷吸收上層波能量併嚮地麵傳送,彊下坡風暴不斷維持髮展。最後利用2006—2012年剋拉瑪依33箇彊下坡風過程中的探空觀測資料對提齣的形成機製進行瞭驗證。
이용미국중척도수치모식 WRF 대2013년3월7—8일극랍마의강풍진행료모의,대하파풍발생、발전화결속3개계단적삼유결구특정진행료분석,병유차제출극랍마의강하파풍적형성궤제모형:상유지구출현중고층서남풍、저층서북풍병반유강랭평류적배치,당풍속불단증대시,기류능구번월가의이산재배풍파측형성중력파,중력파상위향기류상유방향경사산생비선성효응,촉진료파불은정구역적형성병도치파파쇄,형성단류활약층,불단파상층적능량향하전파;극랍마의중저층형성삼층협심적대기층결은정도분포,출현명현적과도기류대종이도치강하파풍적형성;남북풍분량재저층화중층부호상반,형성료림계층,불단흡수상층파능량병향지면전송,강하파풍폭불단유지발전。최후이용2006—2012년극랍마의33개강하파풍과정중적탐공관측자료대제출적형성궤제진행료험증。
Severe downslope winds are observed at Kelamayi,XinJiang with serious damages caused,but the mechanism for its occurrence is not clear.Recently,a strong downslope wind occurred at Kelamayi on 7 -8 Mar 2013,with a maximum wind speed (V max )exceeding 25.8 m/s at the Kelamayi district and exceeding 35.2 m/s at the Baijiantan district,severe wind persisˉ ted for more than ten hours.We use a mesoscale numerical model (WRF)to simulate the windstorm,the model successfully reproduces the major features of the observed downslope winds.Based on the simulative results,we propose a mechanism for Kelamayi downslope windstorms:the environmental conditions of upstream is characterized by the lower level northwestly and the middleˉhigher level southwestly,and,when wind speeding up,the flow with enough kinetic energy is able to overcome the static stability up and over the mountain with the result that a distinct gravitational wave dominates in the lee of mountain.The phase of gravity wave tilt to the upstream area,then wave breaks and a wellˉmixed stagnant layer above the crest level appears.Transitional flow is clear between the turbulent flow and lower wellˉdefined stable layer,which causes strong downslope winds developed along the lee slope of the mountain range.A critical layer is present in the mountain lee characterized by low level northwestly and upper level southwestly,and,below the meanˉstate critical layer,the isentropes began to descend over the crest of mountain and continued descending until the flow reached the base,and thus the energy from the upper level could transfer to the surface.At the end,we use the observed sounding data from the 33 severe downslope wind cases between 2006 and 2012 to verify the proposed mechanism for the Kelamayi downslope windstorms.