气象学报
氣象學報
기상학보
ACTA METEOROLOGICA SINICA
2014年
1期
116-132
,共17页
梁钊明%高守亭%王东海%王彦
樑釗明%高守亭%王東海%王彥
량쇠명%고수정%왕동해%왕언
京津冀%地形%海风锋%对流系统%广义湿位涡
京津冀%地形%海風鋒%對流繫統%廣義濕位渦
경진기%지형%해풍봉%대류계통%엄의습위와
The Beijing-Tianjin-Hebei region%Terrain%Sea breeze front%Convective system%Generalized moist potential vor-ticity (GMPV)
运用 WRF模式,对京津冀地形触发对流系统与海风锋相互作用的两个个例开展了数值模拟,通过对两个个例模拟的广义湿位涡异常和雷达回波分布的对比分析,对广义湿位涡异常预判该类天气过程中对流系统发展的潜力进行了检验。分析结果显示,广义湿位涡异常较雷达回波提前0.5至1 h示踪到山地背风坡和海风锋处的对流系统的发展。斜压与水汽梯度相互作用和非绝热加热对广义湿位涡异常提前示踪山地背风坡和海风锋处对流系统发展有重要的贡献。过山气流的显著扰动和午后相对于陆地大气较为冷湿的海风辐合上升是分别造成山地背风坡和海风锋出现明显的斜压与水汽梯度相互作用的主要原因。
運用 WRF模式,對京津冀地形觸髮對流繫統與海風鋒相互作用的兩箇箇例開展瞭數值模擬,通過對兩箇箇例模擬的廣義濕位渦異常和雷達迴波分佈的對比分析,對廣義濕位渦異常預判該類天氣過程中對流繫統髮展的潛力進行瞭檢驗。分析結果顯示,廣義濕位渦異常較雷達迴波提前0.5至1 h示蹤到山地揹風坡和海風鋒處的對流繫統的髮展。斜壓與水汽梯度相互作用和非絕熱加熱對廣義濕位渦異常提前示蹤山地揹風坡和海風鋒處對流繫統髮展有重要的貢獻。過山氣流的顯著擾動和午後相對于陸地大氣較為冷濕的海風輻閤上升是分彆造成山地揹風坡和海風鋒齣現明顯的斜壓與水汽梯度相互作用的主要原因。
운용 WRF모식,대경진기지형촉발대류계통여해풍봉상호작용적량개개례개전료수치모의,통과대량개개례모의적엄의습위와이상화뢰체회파분포적대비분석,대엄의습위와이상예판해류천기과정중대류계통발전적잠력진행료검험。분석결과현시,엄의습위와이상교뢰체회파제전0.5지1 h시종도산지배풍파화해풍봉처적대류계통적발전。사압여수기제도상호작용화비절열가열대엄의습위와이상제전시종산지배풍파화해풍봉처대류계통발전유중요적공헌。과산기류적현저우동화오후상대우륙지대기교위랭습적해풍복합상승시분별조성산지배풍파화해풍봉출현명현적사압여수기제도상호작용적주요원인。
In this study,the generalized moist potential vorticity (GMPV)anomaly and radar echoes were compared to verify the potential application of the GMPV anomaly in the development prognosis of the convective systems that are triggered by ter-rain and interact with sea breeze front in the Beijing-Tianjin-Hebei region.Simulations of two cases with the WRF (Weather Research and Forecasting)model were carried out for the analysis.The results showed that GMPV anomaly emerged about 0.5 to 1 hour earlier than radar echoes for the tracing of the development of convective systems triggered at the mountain leeside and around sea breeze front.The interaction between baroclinity and water vapor gradient (IBWVG)as well as diabatic heating made important contributions to the earlier appearance of GMPV anomaly.Notable perturbation of over-mountain flow and the convergence ascending of relatively moister and colder (compared to atmosphere near the land surface)sea breeze in the after-noon were the causes of the significant productions of IBWVG at mountain leesid and sea breeze front,respectively.
