气象
氣象
기상
METEOROLOGICAL MONTHLY
2014年
10期
1165-1173
,共9页
徐祥德%王寅钧%赵天良%姚文清
徐祥德%王寅鈞%趙天良%姚文清
서상덕%왕인균%조천량%요문청
湍流通量%湍能分量%大气动力%热力结构%边界层高度
湍流通量%湍能分量%大氣動力%熱力結構%邊界層高度
단류통량%단능분량%대기동력%열력결구%변계층고도
turbulent flux%turbulent energy component%atmospheric dynamic%thermodynamic structure%boundary layer height
提基于云南省大理2008年3、5、7月 GPS 加密探空试验时段(14和02时)资料,结合边界层铁塔综合观测资料,采用温度梯度法、逆温强度法和涡动相关法分别计算高原东南缘对流边界层(convective boundary layer,CBL)及稳定边界层(sta-ble boundary layer,SBL)顶高度,通过计算获取感热通量、潜热通量、湍流动能、切变项以及浮力项与大气动力、热力过程垂直相关特征综合分析,可发现湍能方程中浮力项、感热、潜热通量与 NCEP 再分析资料计算获取的大气视热源相关特征显著,这某种程度反映了高原东南缘近地层大气湍流动量、热量输送对低层大气视热源Q1的重要贡献。低层视热源Q1亦表现出与湍能方程分量类似的日变化周期,此特征反映了高原东南缘大气热源变化与下垫面水热过程及其湍流输送日变化密切相关;浮力项与湍能等项对大气低层热源与涡动特征、热力混合结构的形成有重要作用;低层大气视热源、水汽汇均与边界层高度有显著相关,综合分析结果某种程度描述了青藏高原东南缘近地层湍流动量、热量输送状况与低层大气热源,热力混合边界层结构的综合相关物理图像,初步探索了高原东南缘对流活跃区大气湍流运动与大气动力、热力过程相互作用特征。研究表明近地层湍流通量变化某种程度可反映未来局地大气视热源垂直结构变化的“强信号”特征。本文上述研究结论也可启发我们进一步关注近地层湍流通量异常变化特征及其对局地降水过程大气热源结构演变的影响问题。
提基于雲南省大理2008年3、5、7月 GPS 加密探空試驗時段(14和02時)資料,結閤邊界層鐵塔綜閤觀測資料,採用溫度梯度法、逆溫彊度法和渦動相關法分彆計算高原東南緣對流邊界層(convective boundary layer,CBL)及穩定邊界層(sta-ble boundary layer,SBL)頂高度,通過計算穫取感熱通量、潛熱通量、湍流動能、切變項以及浮力項與大氣動力、熱力過程垂直相關特徵綜閤分析,可髮現湍能方程中浮力項、感熱、潛熱通量與 NCEP 再分析資料計算穫取的大氣視熱源相關特徵顯著,這某種程度反映瞭高原東南緣近地層大氣湍流動量、熱量輸送對低層大氣視熱源Q1的重要貢獻。低層視熱源Q1亦錶現齣與湍能方程分量類似的日變化週期,此特徵反映瞭高原東南緣大氣熱源變化與下墊麵水熱過程及其湍流輸送日變化密切相關;浮力項與湍能等項對大氣低層熱源與渦動特徵、熱力混閤結構的形成有重要作用;低層大氣視熱源、水汽彙均與邊界層高度有顯著相關,綜閤分析結果某種程度描述瞭青藏高原東南緣近地層湍流動量、熱量輸送狀況與低層大氣熱源,熱力混閤邊界層結構的綜閤相關物理圖像,初步探索瞭高原東南緣對流活躍區大氣湍流運動與大氣動力、熱力過程相互作用特徵。研究錶明近地層湍流通量變化某種程度可反映未來跼地大氣視熱源垂直結構變化的“彊信號”特徵。本文上述研究結論也可啟髮我們進一步關註近地層湍流通量異常變化特徵及其對跼地降水過程大氣熱源結構縯變的影響問題。
제기우운남성대리2008년3、5、7월 GPS 가밀탐공시험시단(14화02시)자료,결합변계층철탑종합관측자료,채용온도제도법、역온강도법화와동상관법분별계산고원동남연대류변계층(convective boundary layer,CBL)급은정변계층(sta-ble boundary layer,SBL)정고도,통과계산획취감열통량、잠열통량、단류동능、절변항이급부력항여대기동력、열력과정수직상관특정종합분석,가발현단능방정중부력항、감열、잠열통량여 NCEP 재분석자료계산획취적대기시열원상관특정현저,저모충정도반영료고원동남연근지층대기단류동량、열량수송대저층대기시열원Q1적중요공헌。저층시열원Q1역표현출여단능방정분량유사적일변화주기,차특정반영료고원동남연대기열원변화여하점면수열과정급기단류수송일변화밀절상관;부력항여단능등항대대기저층열원여와동특정、열력혼합결구적형성유중요작용;저층대기시열원、수기회균여변계층고도유현저상관,종합분석결과모충정도묘술료청장고원동남연근지층단류동량、열량수송상황여저층대기열원,열력혼합변계층결구적종합상관물리도상,초보탐색료고원동남연대류활약구대기단류운동여대기동력、열력과정상호작용특정。연구표명근지층단류통량변화모충정도가반영미래국지대기시열원수직결구변화적“강신호”특정。본문상술연구결론야가계발아문진일보관주근지층단류통량이상변화특정급기대국지강수과정대기열원결구연변적영향문제。
Based on the data observed from an intensive GPS sounding experiment and the comprehensive measurements of boundary layer in Dali of Yunnan Province during March,May and July 2008,the heights of CBL (convective boundary layer)and SBL (stable boundary layer)are calculated with approaches of temperature gradient and inversion layer strength and sensible heat flux,latent heat flux,turbulent kinetic energy,shear item and buoyancy item are obtained with eddy-correlation method.The apparent heat source Q1 ,which is calculated from the NCEP reanalysis data,presents the similar diurnal cycles to the turbulent energy components and turbulent flux,reflecting a close connection of the plateau’s heat source variations with the diurnal changes in turbulent transport of hydrothermal process in the underlying surface.The comprehensive analysis on the vertical profiles of variables about turbulence and thermody-namics reveals the significant correlations among sensible heat flux,latent heat flux,apparent heat source and buoyancy item,implying an important contribution of thermodynamic turbulence transport to the Q1 in the near-surface layer over the southeastern edges of the Tibetan Plateau.The buoyancy item and turbu-lent energy play an important role in formation of the near-surface Q1 ,vortex dynamics,thermodynamic mixing structure.The lower layer Q1 and moisture sink are closely associated with the boundary layer height.This comprehensive analysis describs a physical linkage of thermodynamic turbulence transport with atmospheric heat source,vortex dynamical process and thermodynamic mixing layer structure to un-derstand the interaction of turbulence-convection and atmospheric thermodynamic process in the active con-vection region over the southeastern edges of the Tibetan Plateau.