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用含有非绝热加热、湍流输送和摩擦作用的等压面位涡方程对1986年7月两次阻塞高压的酝酿建立、维持和减弱消失3个阶段做了诊断分析。发现东亚阻塞高压是一个具有均匀低位涡的深厚高压系统,低值位涡在高层最明显;高压区内对流层偏暖,以低层为最明显,250hPa以上却明显偏冷。阻高低位涡暖空气主要来自伊朗高原。阻高建立时除伊朗高原低位涡空气向东北移动外,还要有下游低位涡空气向北移动与之配合。位涡方程各项中以高层平流项作用最大,阻高建立时有显著正作用;其次为高层的垂直平流项;第三是低层热成风偏差项;湍流项有削弱阻高的作用;扭转项和摩擦项可忽略。 相似文献
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2007年3月3—5日和2016年5月2—3日有两个气旋(简称C304和C502)在江淮流域生成后,以相似路径影响东北地区,但发展强度不同。利用常规观测资料和NCEP FNL分析资料,通过对涡度平流、温度平流、湿位势涡度及锋生函数等物理量进行诊断并结合高、低空环流形势对两个气旋发展动力机制进行对比分析,结果表明:C304低空温度平流在气旋发展初期起主要作用,高空正涡度平流为地面气旋发展提供高空辐散场,地面气旋中心上空垂直上升运动增强,对流层低层斜压性明显,气旋性涡度增加主要在对流层下层,低空斜压强迫是主要发展机制;C502低空温度平流弱,斜压性不明显,高空正涡度平流促使高空闭合环流发展,对流层上层有高湿位涡舌发展下垂并与对流层下层正湿位涡柱耦合贯通,垂直上升运动分布在地面气旋中心两侧,高空位涡下传是主要发展机制。两个气旋发生发展在对流层上层两支急流共存、急流非纬向性反气旋性弯曲环流形势下,对流层低层为气旋式环流背景。 相似文献
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副热带高压对登陆台风等熵面位涡演变影响的数值模拟研究 总被引:3,自引:1,他引:2
选取1997年第11号台风“温妮”为研究个例, 通过中尺度模式MM5模拟再现了该台风登陆后经历初期减弱、 变性及变性后再次发展的演变过程。采用Davis et al.(1996) 提出的片段位涡反演方法, 提取具有副热带高压物理意义的位涡扰动, 采用片段位涡反演的方法, 改变模式积分初始时刻台风东部副热带高压强度, 并引入Ertel等熵面位涡收支方程, 深入分析不同强度的副热带高压环流系统在登陆台风结构演变的过程中等熵面位涡的守恒性, 以及守恒性与非守恒性相对作用的大小。研究表明: 台风北上深入内陆的过程中, 高空槽大值位涡源源不断的输送使得对流层低层西北侧位涡增长, 台风中心上空的辐散形势有利于台风强度的再次增强。由于摩擦和非绝热加热的存在, 对流层位涡局地变化主要决定于位涡的水平平流 (守恒项)、 位涡的垂直平流、 加热的垂直微分 (非守恒项) 的分布。台风经历变性及再增强的过程中, 其影响范围内位涡守恒性经历了先减弱后增强的过程, 非守恒项中位涡的垂直平流能较好地描述对流层中层位涡局地变化趋势, 而加热的垂直微分则在对流层低层和高层表现良好。副高强度的加强使台风加速北上, 加快了台风变性速度, 高层位涡的向下输送明显提前且强度增强, 位涡守恒性的破坏、 重建也相应提前, 位涡垂直平流的整层负值减小, 加热垂直微分对对流层低层位涡增长的正贡献加强, 且持续时间更长。 相似文献
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1998年长江流域二度梅建立过程中西太平洋副热带高压异常调整的机制分析 总被引:1,自引:1,他引:1
基于NCEP2再分析资料,利用全型线性位势诊断方程详细分析了1998年7月长江流域二度梅建立过程中西太平洋副热带高压(副高)异常调整的物理机制。研究表明,1998年二度梅的重新建立是由于副高南撤增强所致,期间以副高南、北两侧位势高度的“此长彼消”为显著特征。这一调整过程可以分为副高的减弱南撤和增强维持两个阶段,而且是由高、低纬天气系统共同影响的结果。地转涡度项和摩擦力散度项在这其中起到重要贡献,尤以前者贡献最大。在不考虑边界条件作用下,地转涡度项对位势高度的贡献量级为101 gpm,而摩擦力散度项则为100 gpm,后者的影响仅局限于对流层低层。对于北侧位势高度而言,受中高纬度Rossby波调整所产生的低压槽影响,地转涡度项使其持续减弱,而南侧位势高度由于赤道反气旋加强北上,地转涡度项使其由减弱转为增强。摩擦力散度项则通过正反馈作用,分别使得上述的减弱趋势和增强趋势更明显。 相似文献
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一次温带气旋涡度场演变特征及气旋发生发展机制分析 总被引:1,自引:0,他引:1
气旋是涡旋运动,因此相对涡度(以下简称涡度)是确切表征气旋中心位置和强度的物理量,分析气旋发生发展过程就是分析涡度的变化机理。文中采用1000 hPa地转风涡度表征地面气旋,利用常规地面观测、6 h一次的NCEP 1°×1°再分析场等资料,对2014年6月一次具有螺旋式回转路径的北方温带气旋过程进行了诊断分析。利用Petterssen地面气旋发展公式,再结合300 hPa涡度平流、散度场与850 hPa热力场的配置关系,考察了对流层中低层温度平流、500 hPa涡度平流以及300 hPa涡度平流引起的辐散对地面气旋发展的贡献。结果表明:(1)这次气旋过程中500、300 hPa存在两个正涡度区及涡度中心的替换:即在地面气旋发生发展阶段,第一个涡度中心为主要的涡度中心;在气旋减弱阶段,第二个涡度中心成为主要的涡度中心。(2)地面和高空涡度中心均以逆时针螺旋式路径移动。在地面气旋初生和发展阶段,高低层涡度中心及正涡度区呈后倾结构;当高低层涡度中心及正涡度区几乎垂直重合时,地面气旋停止发展。(3)温度平流项在气旋初生阶段起主要作用;500 hPa涡度平流决定了地面气旋的发展。(4)当300 hPa正涡度平流引起的辐散区叠加在对流层低层850 hPa斜压锋区上时,地面气旋发展。 相似文献
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登陆台风等熵面位涡演变的数值模拟研究 总被引:3,自引:1,他引:2
选取1997年第11号台风温妮为研究个例,通过中尺度模式MM5模拟再现了该台风登陆后经历初期减弱、变性及变性后再次发展的演变过程.引入Ertel等熵面位涡收支方程,深入分析了登陆台风结构演变的过程中绝热与非绝热作用对对流层低层位涡局地变化的影响.研究表明:台风温妮深入内陆的过程中,对流层低层台风中心西北侧位涡增长,且大值中心不再与台风中心重合;由于摩擦和非绝热加热的存在,对流层低层位涡不守恒,其局地变化主要决定于位涡的水平平流(守恒项)、位涡的垂直平流、加热的垂直微分(非守恒项)的分布;台风温妮变性前后,对流层低层位涡的守恒性逐渐减弱,非守恒项尤其是加热的垂直微分对位涡的局地增长的正贡献不断增强直至占有主导地位. 相似文献
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为了更全面地了解温带气旋的结构和形成原因,利用常规高空、地面观测、NCEP的1°×1°再分析资料和FY-2E水汽图像等资料,分析了2014年6月6 10日发生在华北及东北温带气旋的强度和移动路径、环流背景及结构和成因等。结果表明:(1)在发展阶段,地面气旋中心气压变化不大,但以逆时针旋转的路径移动;当地面气旋中心与高层低涡中心在同一垂直轴线上时,气旋停止发展。(2)以异常路径移动的气旋发生在500 h Pa大尺度环流多次调整的背景下。当气旋上游贝加尔湖至我国新疆南部的高压脊发展时,气旋初生;当气旋下游日本岛东部至鄂霍次克海高压脊发展时,气旋发展。(3)当正相对涡度随高度向西倾斜、气旋中心上空对流层低层正相对涡度首先加大、且其西侧的冷锋锋区增强、随后气旋中心上空整层正相对涡度增大时,地面气旋处于发展过程中;当高低层正相对涡度垂直重合、且对流层低层冷锋锋区减弱,则气旋停止发展。(4)对流层上层具有高值位涡的干空气逐渐进入地面气旋中心上空的湿区时,高位涡所携带的高空正涡度平流辐散作用使得低层辐合加强、绝对涡度增大,引起地面气压下降。(5)气旋中心上空的对流层中层暖平流和高层较大的正涡度平流使得垂直上升速度增强,气旋逐步发展;地面气旋中心总是沿中低层暖平流和其下游高低层微差涡度平流较大的区域移动。 相似文献
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引发暴雨天气的中尺度低涡的数值研究 总被引:1,自引:1,他引:0
2008年7月17—19日发生在山东的大到暴雨天气是由“海鸥”台风和副热带高压共同向山东输送水汽,与弱冷空气相互作用造成的。对流层低层的中尺度低涡是暴雨天气的直接制造者。利用常规观测资料和中尺度模式WRF(Weather Research and Forecasting)的模拟资料对该中尺度低涡的结构及形成机制进行了分析研究。结果表明,数值模拟可以清楚地捕捉到中尺度低涡东移过程中有新的涡旋中心形成,并与原来的涡旋中心合并的过程,而不是简单的沿切变线东移。中尺度低涡形成在增温增湿明显、上升运动为主的对流区内;中尺度低涡形成后其中心转为下沉运动,对流区东移,降水区位于低涡的东北和东南象限。中尺度低涡上空近地面层的冷池、600~400hPa的弱冷空气堆、900~850hPa的弱风区及高低空急流耦合发展是中尺度低涡形成和发展阶段的重要特征。中尺度低涡减弱阶段,下沉运动变强,低空急流和高空出流都明显减弱。涡度方程的收支表明,对流层低层的散度项、倾侧项及对流层中层的水平平流项和铅直输送项是正涡度的主要贡献者。中低层的水平辐合、涡度由低层向高层的垂直输送都有利于中尺度低涡的形成和发展。倾侧项对中尺度低涡的形成也有重要贡献。中尺度低涡形成后期,低层辐合、高层辐散及垂直输送的减弱导致正涡度制造的减弱,从而使中尺度低涡减弱。 相似文献
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基于NCEP 6 h一次,0.5°(纬度)×0.5°(经度)水平分辨率的GFS(Global Forecasting System)再分析数据,利用数值模式WRF(Weather Research and Forecasting),对2014年11月上旬西北太平洋一次极端强度的爆发气旋事件进行了模拟。在成功复制爆发气旋主要特征的基础上,较详细的分析了本次爆发气旋快速发展的有利环境条件,并利用分片位涡反演的方法,对此次爆发气旋的快速发展过程进行了研究,主要结论如下:(1)本次爆发气旋的爆发性发展阶段维持了约27 h,其最大加深率约为3.98 Bergeron(气旋加深率单位),最低中心气压约为919.2 hPa。(2)爆发气旋的快速发展与对流层高层高空急流对热量的输送,对流层中层西风带短波槽槽前暖平流和正涡度平流的有利准地转强迫,以及对流层低层暖锋伴随的暖平流过程密切相关。(3)分片位涡反演的结果表明,对流层顶皱褶对应的平流层大值位涡下传和降水凝结潜热过程造成的正位涡异常是本次爆发气旋快速发展的主导因子,而对流层低层的斜压过程贡献相对较小。在气旋爆发期的前期和强盛期,降水凝结潜热释放是爆发气旋发展的最重要因子,而在爆发期后期,随着降水的减弱和爆发气旋的东北向移动,对流层顶皱褶作用所造成的正位涡异常成为维持气旋快速发展的最有利因子。 相似文献
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覃皓 《沙漠与绿洲气象(新疆气象)》2024,18(2):68-75
利用常规观测、卫星数据及ERA5再分析数据,从动力和热力角度对引发2020年5月24-25日广西北部暴雨过程的低涡发展维持机制进行了诊断分析。结果表明:低涡在滇黔桂交界一带生成,随后逐渐发展东移,对流云团及降水落区主要分布在低涡东侧及南侧。涡度方程诊断表明,低涡的发展维持主要受涡度平流项和水平散度项影响。水平风场对涡度的输送使得局地涡度减小,而水平风场的辐合效应使得局地涡度增大。将原始风场分解为地转风和非地转风分量后发现,非地转风分量主导了局地涡度的变化,非地转风水平散度项正贡献最大,扭转项次之,两者是造成低涡发展维持的主要原因。在热力作用方面,低涡发展移动过程中对流层中层附近的潜热加热正反馈也有利于低层低涡的发展维持。 相似文献
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Numerical experiments based on the WRF model were conducted to analyze the structure and evolution of the polar mesoscale cyclone developed over the Kara Sea on September 29-30, 2008. It was found that baroclinic instability in the lower troposphere and convective instability (including that due to the wind-induced surface heat exchange) did not play a significant role. Significant contribution was made by the downward advection of potential vorticity from the upper troposphere and by the conditional instability of second kind. It is demonstrated that if water phase transitions are not taken into account, the mesocyclone intensity is reduced by 7-20% and the time of its development increases by 4 hours. The advection of potential vorticity was not the only process causing the intensification of the lower potential vorticity anomaly associated with cyclonic circulation. 相似文献
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线性准地转模型中副热带环流对潜热加热的定常响应I.基本性质及特征分析 总被引:1,自引:1,他引:0
利用线性理论模型进行解析和模拟是大气科学的重要基础研究方法之一, 其简单明了, 解释了如Rossby波形成等重要的环流现象。近年, 有研究 (Chen et al., 2001) 运用定常线性准地转模型研究副热带高压的形成, 在相似加热强迫下, 其结果与理论研究和GCM的研究不同。本文运用该模型系统研究了由季风降水产生的潜热加热所激发的副热带定常波的结构特征, 以理解其结果与GCM不一致的原因。研究表明基本流对热强迫的定常波的结构有重要的影响: (1) 当基本流为东风或为零时, 定常波在垂直方向上表现为第一斜压结构, 波动振幅随东风的增大而减小; (2) 当基本流为西风时, 呈现向上的传播特征, 振幅随高度的升高而增大。而且存在一个临界风速Uc(约3 m/s), 此时, 波动振幅最强; 基本流的平流作用具有非对称性, 西风时平流作用远远强于东风。由此揭示了该线性模型解的本质: 加热在热源区所激发的经向地转涡度输送必须能够平衡加热的位涡制造和纬向位涡平流; 基本流的经向和垂直方向的变化使得气旋和反气旋中心偏向热源中心北侧, 并进一步发现当基本流为夏季亚洲季风区纬向平均的纬向风场时, 线性模型的解中位于中低层的反气旋中心显著抬升, 而不出现在地面上, 与完整的大气环流模式的结果接近。说明即使在线性模式中, 洋面副高的形成也不能完全用季风潜热加热来解释; 另外, 静力稳定度对热强迫的副热带环流的影响也很重要, 使热源的强迫作用放大。 相似文献
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A Study on a Heavy Rainfall Event Triggered by an Inverted Typhoon Trough in Shandong Province 总被引:2,自引:0,他引:2 
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下载免费PDF全文 A heavy rainfall event that occurred in Shandong Province in 26 28 August 2004 was caused mainly by Typhoon Acre and cold air activities related to a westerly trough. The event was triggered by an inverted typhoon trough, which was closely associated with the intensification of the low-level southeasterly flow and the northward transport of heat and momentum in the periphery of the typhoon low. A numerical simulation of this event is performed using the nonhydrostatic mesoscale model MM5 with two-way interactive and triply-nested grids, and the structure of the inverted typhoon trough is studied. Furthermore, the formation and development mechanism of the inverted typhoon trough and a mesoscale vortex are discussed through a vorticity budget analysis. The results show that the heavy rainfall was induced by the strong convergence between the strong and weak winds within the inverted typhoon trough. Dynamic effects of the low-level jet and the diabatic heating of precipitation played an important role in the development of the inverted typhoon trough and the formation of the mesoscale vortex. The vorticity budget analysis suggests that the divergence term in the low troposphere, the horizontal advection term, and the convection term in the middle troposphere were main contributors to positive vorticity. Nonetheless, at the same pressure level, the effect of the divergence term and that of the adveetion term were opposite to each other. In the middle troposphere, the vertical transport term made a positive contribution while the tilting term made a negative contribution, and the total vorticity tendency was the net result of their counteractions. It is found that the change tendency of the relative vorticity was not uniform horizontally. A strong positive vorticity tendency occurred in the southeast of the mesoscale vortex, which is why the heavy rainfall was concentrated there. The increase of positive vorticity in the low (upper) troposphere was caused by horizontal convergence (upward transport of vorticity from the lower troposphere). Therefore, the development of the inverted typhoon trough and the formation of the mesoscale vortex were mainly attributed to the vorticity generated in the low troposphere, and also the vertical transport of vorticity from the low and middle troposphere. 相似文献
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16.
Tingting MA Guoxiong WU Yimin LIU Zhihong JIANG Jiahui YU 《Journal of Meteorological Research》2019,(3):400-415
The external source/sink of potential vorticity (PV) is the original driving force for the atmospheric circulation. The relationship between surface PV generation and surface PV density forcing is discussed in detail in this paper. Moreover, a case study of the extreme winter freezing rain/snow storm over South China in January 2008 is performed, and the surface PV density forcing over the eastern flank of the Tibetan Plateau (TP) has been found to significantly affect the precipitation over South China in this case. The TP generated PV propagated eastward in the middle troposphere. The associated zonal advection of positive absolute vorticity resulted in the increasing of cyclo-nic relative vorticity in the downstream region of the TP. Ascending air and convergence in the lower troposphere developed, which gave rise to the development of the southerly wind. This favored the increasing of negative meridio-nal absolute vorticity advection in the lower troposphere, which provided a large-scale circulation background conducive to ascending motion such that the absolute vorticity advection increased with height. Consequently, the ascending air further strengthened the southerly wind and the vertical gradient of absolute vorticity advection between the lower and middle troposphere in turn. Under such a situation, the enhanced ascending, together with the moist air transported by the southerly wind, formed the extreme winter precipitation in January 2008 over South China. 相似文献
17.
Summary A community mesoscale model is used to simulate and understand processes that led to the formation and intensification of
the near-equatorial typhoon Vamei that formed in the South China Sea in December, 2001. The simulated typhoon resembles the
observed in that it had a short lifetime and a small size, formed near the equator (south of 2° N), and reached category-one
intensity. The formation involved the interactions between the scales of the background cyclonic circulation (the Borneo Vortex
of order ∼100 km) and of mesoscale convective vortices (MCVs, in the order ∼10 km). Before tropical cyclone formation MCVs
formed along a convergent, horizontal shear vorticity line on the eastern edge of an exceptionally strong monsoonal northerly
wind surge.
The typhoon genesis is marked by three rapid intensification periods, which are associated with the rapid growth of potential
vorticity (PV). A vorticity budget analysis reveals that the increases in low-level vorticity during the rapid intensification
periods are attributed to enhanced horizontal vorticity fluxes into the storm core. The increase of the horizontal vorticity
flux is associated with the merging of areas of high PV associated with MCVs into the storm core as they are advected by background
cyclonic flows. The increases in PV at upper levels are associated with the evaporation of upper level stratiform precipitation
and increases of vertical potential temperature gradient below the maximum stratiform cloud layer. It appears that two key
sources of PV at upper and lower levels are crucial for the build up of high PV and a deepening of a cyclonic layer throughout
the troposphere. 相似文献
18.
选取2008-2011年湖北省7个暖干类暴雨个例,利用GFS 0.5°×0.5°再分析资料进行合成分析。结果表明:湖北省暖干类暴雨过程中,正涡度平流不是大范围出现,而是以正涡度平流核的形式出现并随着风场流转,使暴雨区各层涡度平流的配置快速发生变化,容易引起上升运动的突然加强;暖平流从中高层扩展至整层,强暖平流中心出现在临近暴雨发生时的边界层,热力强迫导致低层强辐合,950 hPa上下强暖平流中心与暴雨点位置较一致,对暖干类暴雨的预报有较好的指示意义;中层干空气和低层暖湿空气的侵入是暴雨区对流不稳定增长的主要影响因子,均与副热带高压的西伸发展有关。 相似文献
19.
Suxiang Yao Qian Huang Tim Li Chunying Zhang 《Meteorology and Atmospheric Physics》2014,123(1-2):67-79
The rainfall from January to March in 2010 in East Asia is positive anomaly and the temporal evolution characteristics present the cycle of 20–40 days. In the present paper, the low-frequency circulations and its formation mechanism are analyzed. The results show that during the peak rainfall phase, the upstream of the rainfall regions is controlled by low-frequency cyclone, and the downstream is controlled by low-frequency anticyclone in the middle and low troposphere. In the upper troposphere, the westerly jet presents the oscillation characteristics between the north and the south. Both the integrated (from the surface to 100 hPa) diabatic heating and the horizontal vorticity advection contribute to the vertical velocity. In addition, the vorticity vertical advection has effects on the vertical speed, which is a self-feedback process. The latent heating in the precipitation has influences on the westerly jet in the upper troposphere. The interactions between the precipitation and the westerly jet are mainly manifested as the intraseasonal oscillations. 相似文献