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1.
2007年初一次雪后大雾天气过程分析 总被引:1,自引:1,他引:1
大雾天气是主要的灾害性天气之一。利用多种观测资料和NCEP再分析资料,分析了2007年1月15日华北和黄淮地区的雪后大雾天气产生的天气背景及其形成的温湿条件和层结特征。结果表明:在这次大雾天气发生时,亚欧大陆中高纬度的环流形势为两槽一脊型,中纬度无明显冷空气活动,南支气流较为平直,天气形势比较稳定。华北和黄淮地区位于入海高压的后部,近地面层有弱的东北风或偏东风,即有利于海洋上暖湿气流的平流输送,又不至于破坏大雾形成的温湿条件。同时,大气层结是绝对稳定的,低层有深厚的逆温层,当暖湿空气平流到温度较低的下垫面上时冷却而形成雾,因而这次大雾天气属于典型的平流雾。这种形势的稳定维持,造成了这次持续时间较长的大范围的大雾天气。另外,华北和黄淮较低的海拔高度,有利于暖湿空气的平流进入,也是大雾形成的重要因子。 相似文献
2.
下垫面热力作用对黄海春季海雾的影响——观测与数值试验 总被引:6,自引:2,他引:4
利用海上浮标站、高分辨率数字式探空仪等多种观测手段和中尺度模式WRF,对2008年5月2—3日黄海发生的一次海雾过程进行了观测分析和数值模拟。观测表明,出现海雾时,气温明显下降,气海温差(海表面以上2 m气温减海表面以下1m水温)减小,不足0.5℃,浓雾时,甚至出现海温(SST)高于气温的现象。较强的湍流活动出现在大气边界层低层150 m以下。反映了低层大气稳定性减弱,可能有利于海雾的维持。海雾消散阶段,海气温差明显加大,湍流强度减弱,湍流发展高度升高。海雾过程中,可能存在动量下传的局地海-气相互作用机制,SST的升高可使雾中能见度好转。数值模拟的结果与观测基本一致,雾区内的气海温差明显小于雾区外,敏感性试验进一步表明:100 m以下气层稳定性和湍流发展条件对SST的变化敏感。SST的变化对稳定度的影响和对雾区范围的影响与近海面的水汽含量有关:在湿度较小(q0.5 g/kg)的薄海雾区,SST增加1℃,稳定度明显减弱(θ_v/z≤0.01 K/m),海雾面积缩小;SST下降1℃,稳定度增加(θ_v/z≥0.07 K/m),薄海雾面积增大。在湿度较大(q0.6 g/kg)的浓海雾区,SST的变化对静力稳定度的影响不大,海雾仍然维持。因此,当海气温差减小,甚至出现SST高于气温时,如果仍然有海雾,则一般是水汽含量比较大的浓海雾。该结果有助于对海雾形成机制的认识。 相似文献
3.
为进一步了解平流海雾的形成、发展和消散过程特点和机制,利用风廓线雷达、自动观测、探空、数值产品以及常规气象观测等资料,分析了2014年2月17—18日珠海三灶机场一次平流海雾过程的边界层温湿风三维演变特征及天气学成因。结果表明:边界层内暖湿平流输入、浅层辐合抬升、湍流加强、多层逆温结构以及夜间地面的辐射冷却有利于近地层饱和湿空气的凝结和逆温层的维持,是雾形成的主要物理机制;暖湿平流持续及湍流减弱或停歇是雾维持的原因;近地层偏北风干冷平流入侵并出现下沉气流及日间地面辐射增温使逆温层被破坏是雾消散的主要因素。 相似文献
4.
Aircraft observations of the atmospheric boundary layer (ABL) over Arctic sea ice were made during non-stationary conditions
of cold-air advection with a cloud edge retreating through the study region. The sea-ice concentration, roughness, and ABL
stratification varied in space. In the ABL heat budget, 80% of the Eulerian change in time was explained by cold-air advection
and 20% by diabatic heating. With the cloud cover and inflow potential temperature profile prescribed as a function of time,
the air temperature and near-surface fluxes of heat and momentum were well simulated by the applied two-dimensional mesoscale
model. Model sensitivity tests demonstrated that several factors can be active in generating unstable stratification in the
ABL over the Arctic sea ice in March. In this case, the upward sensible heat flux resulted from the combined effect of clouds,
leads, and cold-air advection. These three factors interacted non-linearly with each other. From the point of view of ABL
temperatures, the lead effect was far less important than the cloud effect, which influenced the temperature profiles via
cloud-top radiative cooling and radiative heating of the snow surface. The steady-state simulations demonstrated that under
overcast skies the evolution towards a deep, well-mixed ABL may take place through the merging of two mixed layers one related
to mostly shear-driven surface mixing and the other to buoyancy-driven top-down mixing due to cloud-top radiative cooling. 相似文献
5.
2004年冬季华北平原持续大雾天气的诊断分析 总被引:34,自引:8,他引:26
利用GTS1型数字式探空仪探测的资料、NCEP 1°×1°的6小时资料和常规观测资料,对2004年冬季华北平原历史上少见的持续大雾天气进行了天气动力学诊断分析。结果表明:华北平原近地面气层900hPa以下的负涡度平流、冷温度平流和弱辐合上升运动引起该层气温下降,900-500hPa的正涡度平流、暖温度平流和辐散下沉运动造成该层气温升高,在上升和下沉运动区的界面层中形成逆温层,逆温层的高度和强度影响雾的形成和状况。夜间辐射热力强迫作用和950hPa以下的微风是大雾形成的动力因子。大雾边界层中存在的水汽饱和层是在特定的环流形势下华北平原低空盛行东和东南向岸气流,将北部海面的水汽向西向北平流到冷近地面气层中的结果。 相似文献
6.
华南沿海暖海雾过程中的湍流热量交换特征 总被引:14,自引:3,他引:11
湍流交换是海雾中的关键物理过程, 在海雾的热量和水汽平衡过程中起重要作用。本文根据2007年3月24~25日一次海雾的外场观测数据, 分析了海雾过程中近海面湍流热量交换特征; 并在区分风切变机械湍流与雾顶长波辐射冷却热力湍流的基础上, 着重分析了两种不同性质的湍流对海雾发展和维持的作用。结果表明: (1) 本次海雾是在西南低压和变性冷高压的控制下, 来自南海东部暖水区的空气平流在近岸冷海面上形成的暖海雾; 暖海雾中的湍流热量交换过程比冷海雾更为复杂; (2) 在暖海雾的形成和消散阶段, 风切变机械湍流的热量输送起主要作用; 而在发展和维持阶段, 既有风切变机械湍流的热量输送作用, 也有雾顶长波辐射冷却热力湍流的热量输送作用; (3) 风切变机械湍流向冷海面输送热量, 对近海面空气起到降温和增湿作用; 热力湍流同样向冷海面输送热量, 但对雾层起到增温和降湿作用; (4) 暖海雾中的湍流热量交换机制与雾层的非充分混合结构有密切关系。 相似文献
7.
A Heavy Sea Fog Event over the Yellow Sea in March 2005: Analysis and Numerical Modeling 总被引:36,自引:0,他引:36
In this paper, a heavy sea fog episode that occurred over the Yellow Sea on 9 March 2005 is investigated. The sea fog patch, with a spatial scale of several hundred kilometers at its mature stage, reduced visibility along the Shandong Peninsula coast to 100 m or much less at some sites. Satellite images, surface observations and soundings at islands and coasts, and analyses from the Japan Meteorology Agency (JMA) axe used to describe and analyze this event. The analysis indicates that this sea fog can be categorized as advection cooling fog. The main features of this sea fog including fog area and its movement axe reasonably reproduced by the Fifth-generation Pennsylvania State University/National Center for Atmospheric Research Mesoscale Model (MM5). Model results suggest that the formation and evolution of this event can be outlined as: (1) southerly warm/moist advection of low-level air resulted in a strong sea-surface-based inversion with a thickness of about 600 m; (2) when the inversion moved from the warmer East Sea to the colder Yellow Sea, a thermal internal boundary layer (TIBL) gradually formed at the base of the inversion while the sea fog grew in response to cooling and moistening by turbulence mixing; (3) the sea fog developed as the TIBL moved northward and (4) strong northerly cold and dry wind destroyed the TIBL and dissipated the sea fog. The principal findings of this study axe that sea fog forms in response to relatively persistent southerly waxm/moist wind and a cold sea surface, and that turbulence mixing by wind shear is the primary mechanism for the cooling and moistening the marine layer. In addition, the study of sensitivity experiments indicates that deterministic numerical modeling offers a promising approach to the prediction of sea fog over the Yellow Sea but it may be more efficient to consider ensemble numerical modeling because of the extreme sensitivity to model input. 相似文献
8.
9.
选取2012年4月14日的一次存在东西2片雾区的黄海春季海雾为研究对象,借助WRF(Weather Research and Forecasting)模式,采用循环3DVAR(3-Dimensional Variational)数据同化方案,考虑了湿度控制变量的背景误差协方差CV6,进行了AIRS(Atmospheric Infrared Sounder)卫星温度与湿度廓线数据的同化试验,并基于同化试验结果探讨了此次海雾的形成机制。同化试验结果表明:同化 AIRS 卫星温度与湿度廓线数据后,模式能成功再现海雾的形成过程,特别是东西2片雾区之间的晴空区的存在,这归功于AIRS数据的同化能够显著改善海上大气边界层的温湿结构、影响海雾的低层高压的范围与强度;机制分析揭示:东西2片雾均为典型的平流冷却雾,但二者厚薄和气团来源不同;海上高压控制黄海西岸陆地的暖空气入海,受低海温的冷却作用降温先形成逆温层,然后逆温层底部生成了较薄的西侧雾区;来自黄海中部的空气向东北移动至朝鲜半岛西部海域,高压下沉增温形成一个顶部较高的稳定层,从而生成较厚的东侧雾区;高压中心下沉区内,近海面风速小使得机械湍流弱,空气增温与海温暖舌共同作用下使得近海面气海温差小,海雾无法生成导致了晴空区的存在。 相似文献
10.
上海一次连续大雾过程的成因分析 总被引:2,自引:0,他引:2
利用上海市遥测能见度数据、常规气象资料和T213、GFS分析资料以及GPS-PWV资料,分析了2008年1月5-11日发生在上海地区的一次连续大雾天气过程.分析表明当有天气尺度西风槽频繁活动、槽前暖湿气流不断向气层输入暖湿空气,如再遇特定暖水面或暖海面从近地面向气层输送暖湿气流时,在晴天和微风的早晨极易形成辐射雾;当东、黄海暖湿空气从近地面流向冷水面或冷陆面,如再遇江南低空偏南暖湿气流辐合聚积时,极易形成平流雾.雾区登陆距离与东风气流强弱有关,东风气流越强,雾区西进距离越长.在平流雾期间,0~300 m平均相对湿度的高湿区与雾区吻合.当绝对湿度小于3 g/kg时不会有大雾发生,绝对湿度在9~1 5 g/kg和GPS-PWV值在15 mm左右时,在合适的大气条件下容易形成大雾. 相似文献
11.
This paper examines the springtime cloud properties in the Taiwan Strait (TS), with emphases on their dependence on synoptic controls and local processes, using a suite of in situ and remote sensing observations. Cloud properties in the TS are inferred from a combination of MODIS and in situ observations and further classified into two synoptic conditions: continental cold air surge and frontal system. The study reveals a predominance of synoptic-scale controls in regulating the cloud properties in the TS. The sensitivity of clouds to the local thermodynamic mechanisms as well as the underlying surface conditions is fundamentally dependent on synoptic-scale flow patterns. The springtime clouds over the TS are commonly a mixture of stratocumulus and alto clouds. More precisely, there is a preponderance of stratocumulus over the strait. A preferential occupancy of stratiform alto clouds is recognized during cold air surge, whereas vertical development of cloud layers (mostly the stratocumulus) is commonly observed with frontal passage. The most distinct difference between the local clouds formation associated with the two synoptic conditions is the suppression of very low cloud and fog along with cold air surge. Stratus clouds and fog are present within the northward prefrontal airflow from warmer to colder water sites, along with an increase in stability relating to lower altitudes of boundary layer clouds. Although the rainfall occurrences are about the same for both synoptic conditions, the frontal rain amounts are larger on average. 相似文献
12.
黄渤海一次持续性大雾过程特征和成因分析 总被引:2,自引:0,他引:2
利用日本MTSAT1R卫星数据、常规地面和高空观测数据、NCEP FNL客观再分析资料和NEARGOOS(NorthEast Asian Regional Global Ocean Observing System)的海表温度(SST)数据,分析了2010年5月31日至6月5日发生在黄渤海及周边地区的一次持续性海雾天气的形成、维持、消散特征及其物理机制。结果表明:大雾形成前低层水汽非常充沛,入海变性冷高压的稳定维持为这次持续性海雾过程提供了有利的背景条件,海雾在夜间辐射冷却作用下形成;大雾期间黄渤海 相似文献
13.
To investigate the processes of development and maintenance of low-level clouds during major synoptic events, the cloudy boundary
layer under stormy conditions during the summertime Arctic has been studied using observations from the Surface Heat Budget
of the Arctic Ocean (SHEBA) experiment and large-eddy simulations (LES). On 29 July 1998, a stable Arctic cloudy boundary-layer
event was observed after the passage of a synoptic low pressure system. The local dynamic and thermodynamic structure of the
boundary layer was determined from aircraft measurements including the analysis of turbulence, cloud microphysics and radiative
properties. After the upper cloud layer advected over the existing cloud layer, the turbulent kinetic energy (TKE) budget
indicated that the cloud layer below 200 m was maintained predominantly by shear production. Observations of longwave radiation
showed that cloud-top cooling at the lower cloud top has been suppressed by radiative effects of the upper cloud layer. Our
LES results demonstrate the importance of the combination of shear mixing near the surface and radiative cooling at the cloud
top in the storm-driven cloudy boundary layer. Once the low-level cloud reaches a certain height, depending on the amount
of cloud-top cooling, the two sources of TKE production begin to separate in space under continuous stormy conditions, suggesting
one possible mechanism for the cloud layering. The sensitivity tests suggest that the storm-driven cloudy boundary layer is
possibly switched to the shear-driven system due to the advection of upper clouds or to the buoyantly driven system due to
the lack of wind shear. A comparison is made of this storm-driven boundary layer with the buoyantly driven boundary layer
previously described in the literature. 相似文献
14.
An infrared radiation parameterization has been applied to a detailed three-dimensional mesoscale model in order to determine whether radiative forcing significantly affects mesoscale atmospheric processes. By taking into account water vapor, liquid water, and carbon dioxide absorption, the scheme differentiates between cloud and clear air regions. The parametric model is presented, along with an overview of the associated mesoscale model.Comparisons between a control run in which only a uniform cooling rate of l K day–1 is specified, and runs with the infrared scheme are made for 12-hr simulations. The major feature of the radiative forcing is seen to be strong cloud-top cooling. This leads to enhanced destabilization of the upper cloud layer, which in turn results in faster growth of clouds (and which extend to higher levels) than in the control experiment. The deeper clouds force a more vigorous secondary circulation, in which thermodynamic feedbacks between clouds and their environment are substantially stronger than in the case with only a constant cooling rate. This confirms findings made in previous studies undertaken in small-scale numerical models. The discussion also focuses upon a simulation in which the cloud-top infrared cooling has been smoothed out over neighboring vertical levels, in order to represent a cloud-top height distribution crudely. The results indicate that although the absolute values of cloud-top cooling are reduced with respect to the unfiltered case, the fact that cooling extends even higher than previously predicted leads to the formation of thicker, more vigorous clouds. These clouds interact more intensely with their environment than in the unfiltered situation, thereby considerably modifying the mesoscale atmosphere. 相似文献
15.
2015-04-28渤海海雾形成过程中的海气相互作用分析 总被引:2,自引:1,他引:2
利用FY和MTSAT卫星资料、ERA Interim再分析资料、黄渤海浮标站资料、黄渤海自动站逐小时观测资料,对发生在2015年4月28—29日的渤海海雾成因进行分析,着重探讨了海雾形成过程中的海气相互作用。结果发现,近海面处大气低层逆温层抬升,大于90%的大湿度区向上、向西扩展,对海雾形成非常有利;海雾生成前、生成发展过程中存在明显的东到东南风,有利于黄海水汽向渤海输送,海面上空有水汽通量大值区由渤海海峡向渤海中部移动,使得渤海上空水汽输送加强,提供了海雾形成所需的水汽;在海雾形成过程中渤海上空气温高于海温,风切变造成的海气界面湍流热交换为大气输送向海洋,使得冷海面上空暖湿空气降温冷却达到饱和形成海雾,是平流冷却雾。 相似文献
16.
利用2011年12月1-7日的常规探测资料和NCEP再分析资料,采取诊断分析的方法,分析了山东省大范围连续性大雾产生的天气背景、温湿条件和大气层结等特征。结果表明:此次连续大雾发生在稳定的大气层结下,高空中纬度环流平直,地面气压场上表现为从东西伯利亚到华南一个庞大的变性高压区(山东处于高压的中部),天气形势稳定;在高分辨率可见光云图上,大雾图像顶部较光滑、边缘较清晰,在红外云图上特征不明显;近地面层是弱的东到东北风(风力在2 m·s-1以下),既有利于海洋上暖湿气流的平流输送,也为较冷的下垫面的建立创造了条件;大气边界层湍流活跃,湍流动力垂直输送明显;大雾初期低空有明显的逆温层,天气状况较好,辐射降温明显,大雾性质以辐射雾为主,中后期是暖湿空气平流到温度较低的下垫面上时冷却而形成,以平流雾为主。 相似文献
17.
沪宁高速公路一次复杂性大雾过程的数值模拟试验 总被引:4,自引:0,他引:4
为探明高速公路大雾天气的成因和演变规律,揭示雾影响交通能见度的机理,本文根据布设于我国沪宁高速公路沿线的环境气象自动监测系统(AWMS)实测资料和覆盖公路周边地区的常规气象台站观测资料,筛选出2009年11月7日发生在沪宁高速公路上的一次典型复杂性大雾天气过程.在分析天气实况的基础上,应用高时空分辨率的非静力中尺度数值预报模式WRF3.1,结合NCEP 0.5°×0.5°气象再分析资料,对该过程进行了数值模拟;利用实测资料对模拟结果进行了验证,并剖析了此次复杂性大雾过程形成的动力、水汽和热力条件.研究表明:(1)本次大雾前后的天气形势相对稳定,江苏地区主要受入海反气旋西南侧东南气流影响,整个大雾过程中地面风力始终微弱,为大雾形成提供了有利的动力条件;(2)模式模拟的由大气液态含水量条件判别的成雾区分布与实测雾区范围基本吻合;(3)模式模拟的能见度与AWMS实测能见度十分接近;(4)本次大雾过程最初是团雾雏形,在夜间辐射冷却作用下,转为辐射雾,之后,来自东南海上的暖湿空气平流进入江苏陆地后,所产生的平流雾雾体与原有辐射雾雾体结合发展为范围更大的辐射平流混合雾;(5)日出后短波辐射增温是此次复杂性大雾雾体得以快速消散的主要原因. 相似文献
18.
Using the non-hydrostatic meso-scale model MM5v3, dense fog that occurred from March 7 to March 8, 2001 over the Mts. Nanling area was studied. With integrated field experiments and observations, the occurrence, development and lift mechanism of fog were analyzed. The results indicate that before the coming of stratiform clouds, southerly warm and wet air ascended along mountainside and cooling condensation formed mountain fog. Then fog was formed by the stratiform on cloud-contacting mountaintop. A front inversion layer accelerated the development and extended the duration of the lower cloud and fog. The intensity, occurrence time, mass content and the variation of temperature and relative humidity of the fog agreed with those of the observation. It showed that the meso-scale model has the potential to forecast mountain fog. 相似文献
19.
Extra-tropical cyclonic/anticyclonic activity in North-Eastern Pacific and air temperature extremes in Western North America 总被引:1,自引:1,他引:1
Synoptic extra-tropical cyclone and anticyclone trajectories have been constructed from mean daily sea level pressure (SLP) data using a new automated scheme. Frequency, intensity and trajectory characteristics of these transients have been summarized to form indices describing wintertime cyclonic and anticyclonic activity over the North-Eastern Pacific (east of 170°W) during 1950–2001. During this period, the strength of anticyclones gradually diminished and their frequency became more variable, while cyclones intensified in a discrete shift with deeper lows and further southerly trajectories occurring since the mid-1970s. These changes in synoptic transients translate into anomalously low seasonal mean SLP in the Aleutian Low, a low-level circulation anomaly consistent with the positive phase of the North Pacific Decadal Oscillation, with positive sea surface temperature (SST) anomalies along the west coast of North America and negative in the central North Pacific Ocean. A link between cyclonic/anticyclonic activity and tropical SST anomalies also exists, but this link only becomes significant after the mid-1970s, a period that coincides with more southerly cyclone trajectories. Southward excursions of mid-latitude cyclones during El Niño/positive NPO winters accomplish the northward advection of tropical air and discourage the southward penetration of polar air masses associated with transient anticyclones. Naturally, these changes in cyclonic/anticyclonic activity directly impact surface air temperatures, especially at night. We document these profound impacts on observed wintertime minimum temperatures over Western North America. 相似文献
20.
Characteristics of the Boundary Layer Structure of Sea Fog on the Coast of Southern China 总被引:2,自引:0,他引:2
Using boundary layer data with regard to sea fog observed at the Science Experiment Base for Marine Meteorology at Bohe,Guangdong Province,the structure of the atmospheric boundary layer and the characteristics of the tops of the fog and the clouds were analyzed.In addition,the effects of advection,radiation,and turbulence during sea fog were also investigated.According to the stability definition of saturated,wet air,the gradient of the potential pseudo-equivalent temperature equal to zero was defined as the thermal turbulence interface.There is evidence to suggest that two layers of turbulence exist in sea fog.Thermal turbulence produced by long-wave radiation is prevalent above the thermal turbulence interface,whereas mechanical turbulence aroused by wind shear is predominant below the interface.The height of the thermal turbulence interface was observed between 180 m and 380 m.Three important factors are closely related to the development of the top of the sea fog:(1) the horizontal advection of the water vapor,(2) the long-wave radiation of the fog top,and(3) the movement of the vertical turbulence.Formation,development,and dissipation are the three possible phases of the evolution of the boundary-layer structure during the sea fog season.In addition,the thermal turbulence interface is the most significant turbulence interface during the formation and development periods;it is maintained after sea fog rises into the stratus layer. 相似文献