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1.
利用海南岛上常规观测资料,雷达、葵花卫星等非常规观测资料,欧洲中心再分析资料和NCEP全球实时海温,对比分析了2018年3月3日海南冰雹的环境条件及其中尺度特征。结果表明:(1)3月2—4日,大尺度环流特征为中层干冷的W—SW急流、低层SW暖气流及地面西南低压槽。(2)3日的区域大气层结处于稳定转变为不稳定的状态,局地增长的不稳定能量在海风锋的触发下强烈释放,适宜的0~6km垂直风切变,0℃、20℃高度有利于对流单体发展成雹暴单体。(3)2日海南岛附近区域层结稳定,CAPE值偏低;4日海南岛处于低层大风核入口前侧,水汽辐散,海风锋垂直环流被抑制,这些都不利于强对流的发展。(4)此次降雹单体具有多个雷达回波特征,当移入多普勒雷达静锥区后,利用风廓线雷达资料可监测到高层急流脉动下传,0~5km、0~3km垂直风切变相继增大的特征,对判断风暴的演变具有重要参考意义。(5)初生对流单体在地面辐合线和儋州中部露点锋交界处生成,在海风锋北端和海口-澄迈北部露点锋重叠区发展为雹暴单体,雹暴单体前沿的露点锋有新生单体的传播。 相似文献
2.
应用地面闪电定位系统、多普勒雷达、加密自动雨量站资料,对2007年7月8~9日蒙古东部冷涡天气系统下,发生在河北中南部的两次雹暴过程进行了分析.结果表明:两次雹暴均产生大量地闪活动,且以负地闪占优势,闪电集中发生时段与强对流发生及维持时间相当.雹暴和强降水在时空分布上对应的地闪极性有明显差异,降雹发生在雹暴云团中正地闪最活跃的阶段,正地闪集中出现在强回波中心及其邻近区域,降雹点落在正地闪聚集区附近;对流性强降水云团中负地闪频繁发生,强降水区出现在负地闪密度高值中心附近,负地闪簇集区域预示着对流性强降雨的落区.多单体风暴中:闪电的频率及聚集区域主要取决于雷暴单体的数目、强度和相互接近的程度,其造成的强降雹主要发生在总地闪的活跃期.本次个例分析显示,总闪电频数跃增、正闪频数突增,仅先于降雹数分钟(几乎同时)发生.因此,根据闪电频数变化可监测对流强度的演变和冰雹天气的发生. 相似文献
3.
北京城区相继多次降雹的一次强雷暴的闪电特征 总被引:2,自引:1,他引:1
受东北冷涡和低层暖湿气流影响,2016年6月10日北京午后爆发了相继5次降冰雹的一次强雷暴天气过程。利用国家“973”项目“雷电重大灾害天气系统的动力—微物理—电过程和成灾机理(雷暴973)”2016年夏季协同观测期间获得的闪电全闪三维定位和多普勒天气雷达等资料,详细分析了此次雹暴的闪电活动和雷达回波特征。此次雹暴过程包括三个孤立的单体相继发展、并合,所分析的4次降雹过程中,总闪电频数在降雹期间都有明显增多,最高可达179 flashes min?1。云闪占全部闪电的80%以上,其中3次降雹前出现正地闪突增,其比例升高,占全部地闪的比例最高达58%。降雹时雷达回波>45 dBZ的面积增大,顶高超过13 km。整个雹暴过程,闪电辐射源主要分布在6~10 km的高度区域,与强回波具有一致性。所分析的4次降雹过程均出现明显的总闪频数跃增,并通过2σ阈值检验,其中3次提前时间为8~18 min,说明总闪频数对于降雹过程有一定的预警能力。 相似文献
4.
一次强对流活动中雷电与降水廓线特征研究 总被引:3,自引:0,他引:3
利用热带测雨卫星的测雨雷达(PR)和闪电成像传感器(LIS)的逐轨探测结果,通过资料匹配处理方法,并配合常规气象资料,分析了2006年6月29日黄淮地区一次强对流活动中不同类型雷暴单体(Area,LIS探测资料认为近似于雷暴单体)的降水廓线,并分析了降水廓线与雷暴闪电频数的关系。结果表明:该强对流系统的雷暴单体可分为对流降水、层云降水、对流与层云混合降水3种雷暴单体,其中,混合降水雷暴单体数量最多,对流降水雷暴单体数和层云降水雷暴单体数量较少;并且雷暴单体中的闪电大多发生在对流降水区。结果还表明,不同闪电频数的雷暴单体相应的降水廓线差别明显:雷暴中闪电频数越大,5km以上高度廓线给出的雨强越大(对流降水廓线尤其如此),说明雷暴单体中闪电越多时,降水云冻结层以上存在的冰相粒子越多。 相似文献
5.
海风锋在渤海西岸局地暴雨过程中的作用 总被引:9,自引:4,他引:5
利用常规观测资料、地面加密自动站资料、多普勒雷达观测资料及中尺度TJ-WRF模式输出资料,对2009年7月6日天津宁河地区出现的暴雨天气过程进行了分析,重点分析了渤海湾海风锋对沿岸局地暴雨的触发机理。结果表明:此次局地暴雨过程是在有利天气背景条件下发生的,暴雨发生地存在局地层结不稳定和较好的水汽条件。海风锋本身有一辐合抬升区,区域内有弱对流存在;当海风锋移到局地存在层结不稳定且水汽充足的区域,其抬升区的辐合上升运动迅速加强,从而触发该地区雷暴的新生发展;海风锋与迎面移来的雷暴相遇,会对雷暴的加速发展起到加强作用。利用中尺度WRF模式输出资料进行分析看到,两条辐合线相交处易激发出强雷暴,雷暴出现在近地层大气暖干区的北端、湿空气的交汇处;海风锋对雷暴的新生发展有明显的触发抬升作用。 相似文献
6.
线状中尺度对流系统内多个强降水单体的结构演变及闪电活动特征 总被引:2,自引:1,他引:1
利用多普勒雷达、SAFIR3000三维闪电定位系统和气象自动站等观测资料,以线状中尺度对流系统内多个γ中尺度强降水单体为研究对象,揭示了单体之间、单体与β中尺度线状对流系统的多种相互关系,设计多种雷达参量对单体的结构演变进行定量化描述,进一步建立了对流单体结构演变与闪电活动的相互关系。得到以下结论:(1)线状中尺度对流系统内顺义、房山、固安、宝坻对流单体分别造成了1 h降雨23、50、27、70 mm,在其演变过程中,顺义单体被另一个单体追逐、供给,房山单体包括2个更小单体的合并过程,而固安、宝坻单体的初生和发展与线状中尺度对流系统是被喂养、吞食的关系。(2)设计的雷达参量V40(40 dBz强回波核的体积大小)、V40UP-6(6 km高度以上40 dBz强回波核的体积大小)、SET11(回波顶在11 km处的回波范围大小)量化描述了单体的三维结构演变特征,Fic(云闪频数)和Fcg(地闪频数)与上述雷达参量关系密切,如与V40UP-6的相关系数为0.63—0.97;而Fic比Fcg更敏感地呼应单体结构的变化。(3)固安单体在成熟阶段,主正电荷区(即辐射点最大密集区所处的地方)维持在较低位置,远低于其他单体在成熟阶段主正电荷区的高度。(4)在对流单体合并后,Fic和Fcg增大且主正电荷区明显抬升、闪电频数陡增对应降水强度增大、闪电频数峰值超前于降雨强度极值等特征,对灾害天气的预警具有积极意义。 相似文献
7.
利用浙江省常规气象站观测资料、地面自动站加密资料、新一代多普勒天气雷达资料、NCEP GFS分析资料以及WRF中尺度模式,对2013年7月29日发生在宁波市地区的一个局地强雷暴天气过程进行了诊断分析和数值模拟。通过对天气环流和数值模拟结果的分析发现:本次强雷暴过程发生在较稳定的大气背景下,主要影响系统是中尺度辐合线海风锋;多普勒雷达出现弱窄带回波时,对应中尺度辐合线海风锋;海风锋向内陆推进时,对应站点温度降低、湿度增大。WRF模式能较好地模拟出此次雷暴过程以及宁波地区低层海风锋环流,高空回流随时间和空间的演变特征;海风锋的锋生造成的地转强迫促使次级环流加强,在东西风辐合线西侧有垂直上升运动出现;通过与敏感试验的对比可知,海陆热力差异是影响雷暴降水强度、海风锋水平垂直环流的重要因素。 相似文献
8.
城市热岛与海风锋叠加作用对一次局地强降水的影响 总被引:3,自引:2,他引:1
利用常规观测资料、天津255 m气象塔资料、多普勒雷达资料和VDRAS反演资料及中尺度TJ WRF模式输出资料,对2010年8月16日天津城区出现的一次局地强降水过程进行分析,重点分析了城市热岛与海风锋叠加作用对此次局地强降水的触发机制。结果表明:此次局地强降水发生在低层槽后弱的反环流条件下,具有明显的γ中尺度对流降水特征;城市热岛效应能造成局地的热力不均匀,这对形成地面中尺度辐合线非常有利。海风锋由岸边向市区移动中与中尺度辐合线相遇,能激发局地不稳定能量的释放,从而产生强对流天气。城市热岛对海风锋的移动有明显阻挡作用;当海风锋移到城市热岛效应明显区域附近时,其后侧气流会出现明显分支绕流和爬升现象,而且两者相遇处的辐合上升运动会迅速加强,这为该地不稳定能量的释放及雷暴的发生发展提供了有利的动力热力条件。中尺度TJ WRF模式可以很好地模拟出这一现象。 相似文献
9.
海风辐合线对雷暴系统触发、合并的动热力过程 总被引:5,自引:1,他引:4
利用加密自动气象站和雷达监测资料,结合VDRAS资料(其时间分辨率12 min、水平垂直分辨率分别是3和1 km左右),分别针对单纯海风辐合线触发和海风辐合线与已有雷暴系统合并的两个实例,揭示海风辐合线对雷暴系统影响的动力和热力过程。结果表明:(1)在环境系统风很弱时,天津沿海海风伸入内陆的移速约为15~18 km·h~(-1),且海风过后,气温降低、湿度加大。(2)海风辐合线配合地面高不稳定区,从而触发和加强了雷暴系统,对雷暴系统的预警时间可达2 h。(3)雷暴单体在海风辐合线附近产生,这与倾斜海风锋锋面(向海洋一侧倾斜)上的中尺度垂直环流相对应。(4)海风辐合线与雷暴系统合并后,雷暴系统强烈发展是由于海风辐合线附近积聚着水汽,同时也是辐合上升运动大值区的缘故。 相似文献
10.
本文通过个例分析,看到两次不同系统的云系合并,大大增强了中尺度系统,以及降雹和雷暴大风天气的事实;看到降雹初期,中尺度系统的存在,在雷达回波上的反映比地面资料分析的早而明显;看到地面上的露点锋可能是开始降雹的一个条件。 相似文献
11.
12.
A. Henderson-Sellers 《Climatic change》1993,23(4):337-377
A simplified vegetation distribution prediction scheme is used in combination with the Biosphere-Atmosphere Transfer Scheme (BATS) and coupled to a version of the NCAR Community Climate Model (CCM1) which includes a mixed-layer ocean. Employed in an off-line mode as a diagnostic tool, the scheme predicts a slightly darker and slightly rougher continental surface than when BATS' prescribed vegetation classes are used. The impact of tropical deforestation on regional climates, and hence on diagnosed vegetation, differs between South America and S.E. Asia. In the Amazon, the climatic effects of removing all the tropical forest are so marked that in only one of the 18 deforested grid elements could the new climate sustain tropical forest vegetation whereas in S.E. Asia in seven of the 9 deforested elements the climate could continue to support tropical forest. Following these off-line tests, the simple vegetation scheme has been coupled to the GCM as an interactive (or two-way) submodel for a test integration lasting 5.6 yr. It is found to be a stable component of the global climate system, producing only ~ 3% (absolute) interannual changes in the predicted percentages of continental vegetation, together with globally-averaged continental temperature increases of up to + 1.5 °C and evaporation increases of 0 to 5 W m–2 and no discernible trends over the 67 months of integration. On the other hand, this interactive land biosphere causes regional-scale temperature differences of ± 10 °C and commensurate disturbances in other climatic parameters. Tuning, similar to the q-flux schemes used for ocean models, could improve the simulation of the present-day surface climate but, in the longer term, it will be important to focus on predicting the characteristics of the continental surface rather than simple vegetation classes. The coupling scheme will also have to allow for vegetation responses occurring over longer timescales so that the coupled system is buffered from sudden shocks. 相似文献
13.
Summary The boundary-layer wind field during weak synoptic conditions is largely controlled by the nature of the landscape. Mesoscale
(sub-synoptic) circulations result from horizontal gradients of sensible heat flux due to variation in local topography, variation
in surface-cover, and discontinuities such as land-sea contrasts. Such flows are usually referred to as thermally-driven circulations,
and are diurnal in nature and often predictable. In this paper we use a state-of-the-art non-hydrostatic computer model to
shed light on the physical mechanisms that drive a persistent easterly wind that develops in the afternoon in the Mackenzie
Basin, New Zealand. The easterly – Canterbury Plains Breeze (CPB) – is observed early in the afternoon and is often intense,
with mean wind speeds reaching up to 12 m s−1. Although computer modelling in mountainous terrain is extremely challenging, the model is able to simulate this circulation
satisfactorily. To further investigate the mechanisms that generate the Canterbury Plains Breeze, two additional idealized
model experiments are performed. With each experiment, the effects of the synoptic scale wind and the ocean around the South
Island, New Zealand were successively removed. The results show that contrary to previous suggestions, the Canterbury Plains
Breeze is not an intrusion of the coastal sea breeze or the Canterbury north-easterly, but can be generated by heating of
the basin alone. This conclusion highlights the importance of mountain basins and saddles in controlling near-surface wind
regimes in complex terrain. 相似文献
14.
Earlier GCM studies have expressed the concern that an enhancement of greenhouse warming might increase the occurrence of summer droughts in mid-latitudes, especially in southern Europe and central North America. This could represent a severe threat for agriculture in the regions concerned, where summer is the main growing season. These predictions must however be considered as uncertain, since most studies featuring enhanced summer dryness in mid-latitudes use very simple representations of the land-surface processes ("bucket" models), despite their key importance for the issue considered. The current study uses a regional climate model including a land-surface scheme of intermediate complexity to investigate the sensitivity of the summer climate to enhanced greenhouse warming over the American Midwest. A surrogate climate change scenario is used for the simulation of a warmer climate. The control runs are driven at the lateral boundaries and the sea surface by reanalysis data and observations, respectively. The warmer climate experiments are forced by a modified set of initial and lateral boundary conditions. The modifications consist of a uniform 3 K temperature increase and an attendant increase of specific humidity (unchanged relative humidity). This strategy maintains a similar dynamical forcing in the warmer climate experiments, thus allowing to investigate thermodynamical impacts of climate change in comparative isolation. The atmospheric CO 2 concentration of the sensitivity experiments is set to four times its pre-industrial value. The simulations are conducted from March 15 to October 1st, for 4 years corresponding to drought (1988), normal (1986, 1990) and flood (1993) conditions. The numerical experiments do not present any great enhancement of summer drying under warmer climatic conditions. First, the overall changes in the hydrological cycle (especially evapotranspiration) are of small magnitude despite the strong forcing applied. Second, precipitation increases in spring lead to higher soil water recharge during this season, compensating for the enhanced soil moisture depletion occurring later in the year. Additional simulations replacing the plant control on transpiration with a bucket-type formulation presented increased soil drying in 1988, the drought year. This suggests that vegetation control on transpiration might play an important part in counteracting an enhancement of summer drying when soil water gets limited. Though further aspects of this issue would need investigating, our results underline the importance of land-surface processes in climate integrations and suggest that the risk of enhanced summer dryness in the region studied might be less acute than previously assumed, provided the North American general circulation does not change markedly with global warming. 相似文献
15.
T. Vrhovec 《Meteorology and Atmospheric Physics》1991,46(1-2):91-99
Summary A formation of a cold air lake in a basin is studied with a mesometeorological model.A dynamic Boussinesq hydrostatic mesoscale numerical model is developed in a staggered orthogonal grid with a horizontal resolution of 1 km and with a varying vertical grid. The topography is presented in a block shape so that computation levels are horizontal.The mesometeorological model is tested in three idealized topography cases (a valley, a single mountain, a basin) and test results are discussed.In an alpine basin surrounded by mountains and plateaus the air is supposed to be stagnant at the beginning of the night. Due to differences in radiation cooling an inversion layer is formed in the basin and local wind circulation is studied by model simulations.With 14 Figures 相似文献
16.
H. E. Eisma J. M. Tomas M. J. B. M. Pourquie G. E. Elsinga H. J. J. Jonker J. Westerweel 《Boundary-Layer Meteorology》2018,169(2):185-208
Simultaneous particle-image velocimetry and laser-induced fluorescence combined with large-eddy simulations are used to investigate the flow and pollutant dispersion behaviour in a rural-to-urban roughness transition. The urban roughness is characterized by an array of cubical obstacles in an aligned arrangement. A plane fence is added one obstacle height h upstream of the urban roughness elements, with three different fence heights considered. A smooth-wall turbulent boundary layer with a depth of 10h is used as the approaching flow, and a passive tracer is released from a uniform line source 1h upstream of the fence. A shear layer is formed at the top of the fence, which increases in strength for the higher fence cases, resulting in a deeper internal boundary layer (IBL). It is found that the mean flow for the rural-to-urban transition can be described by means of a mixing-length model provided that the transitional effects are accounted for. The mixing-length formulation for sparse urban canopies, as found in the literature, is extended to take into account the blockage effect in dense canopies. Additionally, the average mean concentration field is found to scale with the IBL depth and the bulk velocity in the IBL. 相似文献
17.
Jonathan S. Price 《Boundary-Layer Meteorology》1991,57(4):391-406
Frequent fog severely restricts evaporation from blanket bogs in Newfoundland because it more than halves the radiant energy input, and it eliminates the vapor pressure deficit, resulting in evaporation at the equilibrium rate (average = 0.99 during fog). During these periods, there is no surface resistance to evaporation because the bog has been wetted by fog drip, and although the latent heat flux dominates over sensible heat (average = 0.8), both are small. In contrast, the surface dries during clear periods, increasing the surface resistance to evaporation so that sensible heat becomes more important ( = 1.05). When the mosses are dry, evaporation is below the equilibrium rate ( = 0.87), although the higher available energy ensures that actual evaporation is higher. During clear periods, daily evaporation averaged 2.5 mm, compared to 1.1 and 0.7 mm for fog and rain, respectively. The suppressed evaporation at this site is important in maintaining appropriate hydrological conditions for blanket bog development. 相似文献
18.
Internal waves incident on a sheared ocean pycnocline are studied using analytic and numerical methods. Linear analysis of the unstable modes of a sheared ocean pycnocline is used to demonstrate interactions between internal waves and shear instabilities. A new analytic solution for an asymmetric shear layer over a stratified layer is presented, illustrating modes which couple to internal waves, in addition to the well-known Holmboe modes. The robustness of these solutions is demonstrated using numerical methods for realistic shear profiles. Fully nonlinear numerical simulations illustrate the growth of these modes and demonstrate the excitation of shear instabilities by incident internal waves. The results may have implications for internal wave interactions with the ocean pycnocline and the local generation of internal solitary waves. 相似文献
19.
Howard J. Freeland 《大气与海洋》2013,51(3):288-302
Abstract The effect of an abrupt headland on a barotropic oceanic boundary current with variable bottom topography is investigated. The objective is to explore with a very simple model some of the observed features of flow past Brooks Peninsula, an obstacle to boundary currents on the west coast of Vancouver Island. It is shown that the seasonal variation in the background current field causes a large change in the response to the headland. The difference is both quantitative and qualitative and results from the ability of southward alongshore flows to support topographic Rossby lee waves. As a result of the presence of the lee waves a strong offshore flow occurs just downstream of the Peninsula and this ejects water from the continental shelf into deep water producing features reminiscent of the so‐called “squirts” and “jets”. 相似文献