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1.
本文用PSU/UCAR中尺度模式MMR对黑潮暖流海域海洋边界层大气的斜压性对我国东南沿海地区局地环流及天气影响的数值模拟分析表明:在有利的大尺度背景风场向岸东风的作用下,我国东南沿海地区夜间可以有海岸锋生成,黑潮暖流影响锋生强度,并使沿海岸一带区域夜间降水增大。 相似文献
2.
The WRF-ARW regional atmosphere circulation model has been used to reproduce a few episodes of cold intrusion and the Novorossiysk bora accompanied by the formation of the mesoscale cyclonic vortex over the Black sea, which can be clearly observed from satellite images of cloudiness. It has been shown that the vortex development is associated with the specific features of air flow around the northwestern edge of the Caucasus Mountains. We have estimated the vertical vorticity associated with the alongshore horizontal gradient of temperature. We have considered the field structure of wind velocity and temperature of the axisymmetric quasi-two-dimensional vortex generated in the coastal zone and displaced seaward after separating from the coast. With the background northerly wind, the coastal cyclonic circulation is not accompanied by the vortex separation from the coast. The specific feature of the development of the cyclonic vortex is the southeastern wind with velocities of up to 10 m/s in the Caucasus coastal area from Sochi to Sukhum. 相似文献
3.
为探究冬季不同背景风场下黑潮锋影响边界层云的机理,采用高分辨率卫星数据和再分析数据,研究了冬季海面背景风为垂直(西北风)和平行(东北风)东海黑潮海表面温度锋(黑潮锋)条件下,边界层云对黑潮锋的响应。结果表明:背景风垂直黑潮锋情况下,黑潮锋强迫的边界层内次级环流明显,黑潮锋暖水侧海面冷平流强,海气温差增大,海气界面潜热感热通量增大,海气界面不稳定性增大,产生上升运动,云底高度抬升。上升运动在边界层底向南北两侧辐散,在冷水侧产生下沉运动与500 hPa高压下沉叠加,使局地云量明显减少,形成晴空少云区(云洞)。在暖水侧以南的下沉支叠加云顶上的下沉运动和边界层退耦效应共同作用,产生另一个云洞。气压调整机制为次级环流产生的主要原因。背景风平行黑潮锋情况下,海面空气温度平流作用小,暖水侧海气温差较小,虽然海洋仍然加热大气,但海气界面不稳定较弱,湍流增强使云底高度抬升,垂直混合机制为该湍流增强的主要原因。 相似文献
4.
寒潮影响下江苏沿海风浪场数值模拟研究 总被引:2,自引:0,他引:2
基于第三代浅水波浪数值预报模型SWAN,建立自西北太平洋嵌套至东中国海、江苏沿海的三重嵌套模型,对2010年12月12日至15日江苏沿海寒潮大风引起的风浪过程进行了数值模拟研究。利用西北太平洋和江苏沿海实测数据对模型进行了验证,结果表明SWAN嵌套模型能较好地模拟江苏沿海寒潮风浪场的时空分布。通过响水站实测数据对江苏沿海底摩擦系数进行了率定,研究表明选取Collins拖曳理论中摩擦因数C_f=0.001时,有效波高模拟误差相对较小。寒潮风浪场的特征分析表明,有效波高分布与风场分布基本一致,寒潮风浪在江苏沿海北部影响较为显著,辐射沙洲附近由于其特殊地形影响相对较小。 相似文献
5.
A thermohaline front is located at the southeastern entrance of the Yellow Sea in winter, and it is generated by the intrusion of warm saline water into the Yellow Sea caused by a strong northerly wind. Recently, a westward transversal current traveling away from the west coast of Korea toward the open sea area along the front was reported. The westward transversal current is dominant in the surface layer during the temperature inversion period. The formation and structure of this current are examined using a numerical vertical ocean-slice model. When two different water masses meet, a front is formed and adjusted geostrophically. In this frontal zone, a horizontal pressure gradient flow by the vertically inclined isopycnal occurs under the thermal wind process in a baroclinic effect, and the cold fresh coastal water moves westward along the front in the upper layer. The barotropic effect across the front and the bottom friction effect strengthen the westward component of the velocity. The velocity of the bottom layer decreases remarkably in the increase of the bottom drag coefficient. This means that the bottom friction with the strong background tidal current causes a reduction in the current in the bottom layer. 相似文献
6.
2006年夏季琼东、粤西沿岸上升流研究 总被引:3,自引:1,他引:2
利用2006年夏季广东、海南、广西近海的海洋水文调查资料和卫星遥感QuikSCAT风场资料分析琼东、粤西沿岸上升流的空间结构特征, 探讨风场、风应力旋度对上升流的影响以及上升流区水温、海流、海平面对上升流的响应。结果表明:琼东、粤西沿岸上升流区并非相互独立, 从10 m层以下已经连成一片。琼东沿岸上升流主要由夏季西南季风驱动而产生, 风应力旋度也有一定贡献。琼东沿岸上升流的强度比粤西强。琼东沿岸海域的上层海水(18 m以浅)以离岸运动为主, 中下层海水以向岸运动为主。上层的离岸流速大于中下层的向岸流速。琼东沿岸的上升流现象是间歇性的, 与沿岸风速强弱有关。琼东沿岸海域海平面的升降与上升流的强弱有良好的关系, 上升流的强弱滞后于海平面的升降约1~2 d。 相似文献
7.
Yu. P. Soloviev 《Izvestiya Atmospheric and Oceanic Physics》2013,49(3):315-328
Results of measurements of the atmospheric turbulence in the layer between 1.5 and 21 m above sea level and the drag coefficient of the sea surface as the wind blows from a 4-km-long mountainous slope with a mean inclination of 11° are presented. The measurements of wind-speed profiles and its fluctuations at several levels, waves, and the main meteorological parameters were carried out in autumn 2005 and 2008 from a stationary platform located in the Black Sea at a distance of approximately 1 km from the southern coast of Crimea. It is shown that during weak synoptic wind a low-level wind jet develops at night over the sea with a maximum velocity up to 5–6 m/s at a level of approximately 6 m over the sea induced by the katabatic wind over the coastal slope. According to the approximate estimates, the horizontal scale of the low-level jet can reach a few tens of kilometers. This flow is characterized by the dissipation rate of the turbulence energy independent of height and low-frequency velocity fluctuations related to the gravity waves and advection of turbulence from the coast. It is shown that the lower part of the boundary layer (up to a height of 3 m) is adjusted to the sea-surface roughness. The dependencies of the drag coefficient on the wind speed or wave age are steadier than in the data for the open sea. However, the age of the waves is not a universal parameter at long and short fetches. 相似文献
8.
风廓线雷达在重污染天气与逆温层关系研究中的应用 总被引:1,自引:0,他引:1
本文利用气象要素地面观测和环境空气质量监测数据,结合对流层风廓线雷达探测资料,深入研究了2013—2019年发生在青岛地区的65个重污染天气的逆温层变化特征及其与重污染天气的关系。结果表明:(1)青岛地区的重污染天气主要发生在12月至次年1月,重污染发生当日的空气质量指数(Air quality iudex AQI)有“双峰”结构的日变化特征;(2)逆温层早于重污染天气出现,当逆温层高度降低且强度增强,或逆温层高度维持较低、强度维持较强而厚度增厚时,重污染持续或加强;当逆温层高度升高、强度减弱或厚度变薄时,重污染减弱或消散;(3)根据热成风原理,利用风廓线雷达资料可以提前3~7 h预测当地重污染天气的发生,从根本上弥补了常规探空资料低时间分辨率的不足。本文首次将风廓线雷达资料用于分析逆温层变化,而不是平流输送作用,这不仅增加了一个判断影响AQI变化气象条件的新手段,也为今后进一步研究逆温层与重污染天气之间的关系增加了一个有效的新途径,对精准预判某地重污染天气发生的具体时间节点有重要的参考意义和业务应用价值。 相似文献
9.
东海沿海季节性海平面异常成因 总被引:1,自引:0,他引:1
Based on the analysis of sea level, air temperature, sea surface temperature(SST), air pressure and wind data during 1980–2013, the causes of seasonal sea level anomalies in the coastal region of the East China Sea(ECS) are investigated. The research results show:(1) sea level along the coastal region of the ECS takes on strong seasonal variation. The annual range is 30–45 cm, larger in the north than in the south. From north to south, the phase of sea level changes from 140° to 231°, with a difference of nearly 3 months.(2) Monthly mean sea level(MSL)anomalies often occur from August to next February along the coast region of the ECS. The number of sea level anomalies is at most from January to February and from August to October, showing a growing trend in recent years.(3) Anomalous wind field is an important factor to affect the sea level variation in the coastal region of the ECS. Monthly MSL anomaly is closely related to wind field anomaly and air pressure field anomaly. Wind-driven current is essentially consistent with sea surface height. In August 2012, the sea surface heights at the coastal stations driven by wind field have contributed 50%–80% of MSL anomalies.(4) The annual variations for sea level,SST and air temperature along the coastal region of the ECS are mainly caused by solar radiation with a period of12 months. But the correlation coefficients of sea level anomalies with SST anomalies and air temperature anomalies are all less than 0.1.(5) Seasonal sea level variations contain the long-term trends and all kinds of periodic changes. Sea level oscillations vary in different seasons in the coastal region of the ECS. In winter and spring, the oscillation of 4–7 a related to El Ni?o is stronger and its amplitude exceeds 2 cm. In summer and autumn, the oscillations of 2–3 a and quasi 9 a are most significant, and their amplitudes also exceed 2 cm. The height of sea level is lifted up when the different oscillations superposed. On the other hand, the height of sea level is fallen down. 相似文献
10.
A surf zone with large breaking waves produces more spray than do offshore regions. Latent heat of spray evaporation causes change in the surrounding temperature and wind velocity, resulting in further alterations in temperature, wind velocity and heat flux. Spray in a surf zone with large breaking waves may have unignorable effect on determination of a local meteorological field because of this interconnected relationship as well as its higher population than in the open ocean. In this study, the effects of the spray latent heat on a meteorological field were investigated. The authors propose a method for estimating latent heat of spray vaporization over the ocean. The method was applied to a meso-scale meteorological model to perform numerical experiments with consideration of heat flux by spray. Although the contribution of heat flux on the ocean was as small as 2.5%, fluctuations of air temperature and wind velocity increased over time due to the effects of spray. The fluctuations are thought to cause uncertainty in weather prediction. Numerical experiments with spray provided predictions of air temperature and wind velocity near a coast line that were consistent with observational data, especially when the population of spray droplets increased by two orders of magnitude as is often observed in a coastal area. 相似文献
11.
The experimental investigation of the run-up of periodic internal waves in a two-layer fluid on the coastal slope is performed
in an open hydrochannel at the Physical Department of the Lomonosov Moscow State University. The waves are produced by a wave
generator. We study the transformation of waves, the vertical structure of the field of velocities of mass transfer, and the
behavior of the parameters of internal waves propagating over the sloping bottom. It is shown that the run-up and breaking
of internal waves are accompanied by periodic emissions of portions of the heavier fluid from the bottom layer upward along
the slope. The Stokes drift velocity changes its sign as a function of depth. Moreover, both the wave length (the horizontal
distance between the neighboring crests) and the height of waves over the sloping bottom (the elevation of the crest over
the slope along the vertical) decrease as the wave approaches the coast. 相似文献
12.
V. V. Malinovsky V. A. Dulov A. E. Korinenko A. N. Bol’shakov V. E. Smolov 《Izvestiya Atmospheric and Oceanic Physics》2007,43(1):103-111
The results of field investigations of the drift of surface films are presented. The experiments were performed at the southern coast of the Crimea in the area of an oceanographic platform. It is shown that the drift of a thin film is described well by a linear combination of the vectors of the coastal current and wind, and the coefficient of the current velocity is close to unity. The total velocity of wind and wave drifts is 0.013 of the wind velocity magnitude or 0.38 of the air friction velocity. Analysis of experimental data demonstrates an increase in the film spreading rate with increasing wind velocity. 相似文献
13.
本文总结和归纳了已有的台风海面风场模式,按照风场模式物理背景的不同进行了分类.在此基础上,本文选择并建立了一种新的台风海面风场动力诊断模式.首先,利用台风影响范围内某条具有代表性的闭合等压线的拟合方程表示出台风海面气压场,并利用改进的气压场模式和修正的梯度风方程求得台风系统风场,同时还利用宫崎正卫的热带气旋合成风假设建立移行台风风场.然后将两者作权重订正后进行迭加,即得到台风模型风场.该模式考虑了包括台风气压场的非对称性、边界层摩擦效用、气压梯度的切向变化及台风中心移动的影响等多种因素.经过对0519号“龙王”台风的模拟,结果表明本文所建立的台风风场模式可以比较准确的模拟出非圆对称的台风海面气压场和海面风场,较为真实地反映实际台风风场的特征. 相似文献
14.
2018年6 月5~9日青岛近海发生一次海雾天气过程,为6月9日2018上海合作组织青岛峰会开幕式演出的天气预报服务,特别是能见度精细化预报带来了很大的预报难点。本文分析了此次海雾天气的生消过程,并重点讨论了6月9日能见度变化的主要原因。4~7日边界层内接近接地的强逆温层的建立,有利于海雾的形成与维持。由于白天时段日射增温导致能见度好转,海雾出现日变化。自7日夜间开始地面气压场梯度明显减弱,南风减弱转为偏东风,暖湿气流供应减弱不利于海雾天气的维持。8日之后,边界层内上升运动逐渐增强且混合层高度明显增加,中低层干冷空气的侵入,导致边界层内逆温结构被破坏、近地面湿层消失,使此次海雾过程趋于消散。9日傍晚的能见度条件基本达到演出要求。9日夜间受焰火燃放污染物影响,能见度短时波动。各种海雾客观预报方法预报准确率达到66%左右,主观预报订正准确性高于客观预报。 相似文献
15.
青岛地区海雾多发,观测表明海雾对沿海地区影响范围不尽相同,特别是海雾影响内陆的机理尚缺乏研究。本文利用观测资料及数值模式统计了青岛地区4月-7月海雾分布特征,并对不同影响范围海雾典型个例进行对比分析,结果表明:海雾发生日数自沿海向内陆递减。胶州湾沿岸雾日数比黄海沿岸明显减少,胶州湾东北部的雾日数要少于胶州湾西北部。海雾多发生于高空形势稳定,低层偏南流场的天气条件下。大气边界层内逆温层的的范围大致影响着海雾的分布。只影响沿海的海雾,地面为偏南风,风速在3~8 m/s之间,内陆风力减弱不明显。500 m以下大气边界层内风速切变大。湍流作用使海雾向内陆推进过程中倾斜抬升为低云,地面雾区减弱。能够影响内陆地区的海雾,多出现在地面风力较弱的情况之下,大部分在1~3 m/s之间。500 m以下大气边界层内风速切变小,大气边界层内湍流强度不强,使沿海到内陆的逆温层能够始终维持,沿海海雾在弱南风影响下延伸影响内陆地区。 相似文献
16.
The process of upwelling/sinking and associated sea level variations are seen as a response of coastal ocean to pure wind stress forcing. Further,precipitation and monsoonal floods, apart from the marine meteorological parameters, are expected to influence the sea level fluctuations along the coast. This study comprises determining the sea level from the various parameters together with the pure wind stress forcing, which is compared with the observed cycle. However, it is found that there is considerable difference between the computations and observations. This suggests that the sea level is dependent not just on the local forcing alone, but also on the induced background circulation as well. For example, the sea level changes along the east coast of India, particularly the northern region, are more sensitive to freshwater discharge from various rivers joining the Bay of Bengal. This is due to more frequently occurring pre- and postmonsoon cyclonic storms and the associated surges in the Bay of Bengal as compared to the Arabian Sea. Hence the salinity effects are particularly important in the coastal waters off the east coast of India during monsoon months (June-September). For the west coast of India, however, it is expected that the large-scale coastal circulation may play a role in determining sea level changes in addition to other forcings. The salinity effects are negligible along the west coast in the absence of any major river systems that join the Arabian Sea. The local advection currents caused by the offshore directed freshwater discharge from various estuaries joining the coastal bay also seemed to influence the sea level. In order to elucidate the essential dynamics involved and to study the effect of the remote forcing, a three-dimensional baroclinic, nonlinear numerical model is used with appropriate open boundary conditions. The local effect of the current has been incorporated in the west coast model by means of opening a channel at Cochin through which the rainwater is carried away to the model ocean. The low saline plume, cascading from north along the east cost of India, has been incorporated in the east coast model through a proper forcing applied at the northern boundary of the model. With the inclusion of these remote forcings in the models, the disagreement between the simulations and the observations is minimized. 相似文献
17.
Nobuo Suginohara 《Journal of Oceanography》1974,30(1):23-33
On the assumption that motions of the barotropic mode are horizontally nondivergent, action of the wind stress with longshore variation on a two-layer ocean adjacent to the meridional east coast is studied. Only the equatorward wind stress is considered. Along the east coast, upwelling is induced by the direct effect of the coast and is confined in a narrow strip with the width of the order of the internal radius of deformation. The upwelling propagates poleward with the internal gravity wave speed. Coastal upwelling induced by the wind stress with longshore variation may be interpreted as the generation and propagation of internal Kelvin waves. Associated with the coastal upwelling, the equatorward flow in the upper layer and the poleward flow in the lower layer are formed as an internal mode of motions. When the bottom topography with the continental shelf and slope is taken into account, occurrence of the poleward undercurrent is delayed by a few days because of the generation of continental shelf waves. And, after the forcing is stopped, the shelf waves propagate poleward away from the upwelling region and the poleward undercurrent fully develops. At the margin of the continental shelf, another upwelling region is induced and propagates poleward. 相似文献
18.
通过对0903号台风“莲花”在登陆福建晋江并沿着海岸线北上过程中的沿海自动站逐时实况风场资料的分析,研究了该台风的风结构状况,得到以下结论:(1)台风近中心最大风速预报值比实测风速偏小,台风7级风半径则比实际的偏大.(2)实测2min平均风速最大值(Vmax)总体上呈减弱趋势,与时间(t)的回归方程式为:Vmax=28.9—0.61t(n=16,r=0.78,r005=0.50).(3)台风最大风速半径(R)呈逐渐扩大的趋势,与时间(t)的回归方程式为:R=28.28—4.98t+0.67t。(n=16,r=0.95,r0.05=0.50).(4)台风最大风速区位于台风后部.认识台风风结构,有助于不断地提高预报的准确性. 相似文献
19.
The process of upwelling/sinking and associated sea level variations are seen as a response of coastal ocean to pure wind stress forcing. Further,precipitation and monsoonal floods, apart from the marine meteorological parameters, are expected to influence the sea level fluctuations along the coast. This study comprises determining the sea level from the various parameters together with the pure wind stress forcing, which is compared with the observed cycle. However, it is found that there is considerable difference between the computations and observations. This suggests that the sea level is dependent not just on the local forcing alone, but also on the induced background circulation as well. For example, the sea level changes along the east coast of India, particularly the northern region, are more sensitive to freshwater discharge from various rivers joining the Bay of Bengal. This is due to more frequently occurring pre- and postmonsoon cyclonic storms and the associated surges in the Bay of Bengal as compared to the Arabian Sea. Hence the salinity effects are particularly important in the coastal waters off the east coast of India during monsoon months (June-September). For the west coast of India, however, it is expected that the large-scale coastal circulation may play a role in determining sea level changes in addition to other forcings. The salinity effects are negligible along the west coast in the absence of any major river systems that join the Arabian Sea. The local advection currents caused by the offshore directed freshwater discharge from various estuaries joining the coastal bay also seemed to influence the sea level. In order to elucidate the essential dynamics involved and to study the effect of the remote forcing, a three-dimensional baroclinic, nonlinear numerical model is used with appropriate open boundary conditions. The local effect of the current has been incorporated in the west coast model by means of opening a channel at Cochin through which the rainwater is carried away to the model ocean. The low saline plume, cascading from north along the east cost of India, has been incorporated in the east coast model through a proper forcing applied at the northern boundary of the model. With the inclusion of these remote forcings in the models, the disagreement between the simulations and the observations is minimized. 相似文献
20.
F. Parungo C. Nagamoto B. Kopcewicz J. Harris Zhou Mingyu L&#; Naiping S. Hoyt 《海洋学报(英文版)》1991,10(1):47-71
To investigate the life cycle of marine sulfate aerosols, chemicophysical characteristics of marine aerosolswere measured during five cruises in the Pacific Ocean. Dimethyl sulfide concentrations in seawater and in the air were also measured. The geographic variation of sulfate-aerosol concentrations was studied in relation to biogenic and anthropogenic sources,transport with air trajectories, and chemical transformations in the atmosphere. The highest concentrations were found near Asian and American ports, indicating anthropogenic pollution is the major sulfate aerosols source. Higher concentrations were observed in the upwelling regions than in the oligotrophic areas. Along the coastal regions, both mass and number concentrations of sulfate aerosols depended on wind direction and wind speed, and land-breeze and sea-breeze oscillations; no clear diurnal variation was detected. In pelagic areas, along the equator, the concentrations of small sulfate particles showed a maximum in the afternoon and the m 相似文献