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1.
The modeling of atmospheric circulation in the Black Sea region using the WRF-ARW model for 30 summer days is considered to single out the contribution of the breeze component of wind speed. Assuming the quasiperiodic nature of breeze, the speed of daytime and nighttime breeze is computed for the whole region and for five separate areas on the coast. Specific features of the formation of daytime and nighttime breeze in these areas are distinguished. It is revealed that the presence of coastal mountains and the complex coastline determine the typical features of breeze development. 相似文献
2.
2019年3月,利用相干多普勒测风激光雷达首次在辽东湾西部绥中地区进行了风廓线测量试验。根据研究区域海岸线走向采用风向的十六分位法定义局地海风和陆风,分析和提取海陆风特征验证了多普勒测风激光雷达在春季季风间断期间观测海陆风的可行性,并计算和分析了大气边界层湍流能量的变化以及回流水平变化等特性。结果表明:1)绥中地区春季存在明显的海陆风环流特征,测风激光雷达观测海陆风出现的时间与地面自动气象站观测的数据较为一致,符合海陆风日的定义。2)海陆风日发生时,水平局地回流指数(RF)较小,1.2 km以下的RF值小于0.5,使得污染物循环累积,较易形成雾霾天气;但是海风时大气边界层的高度可达1 km以上,有利于低层大气污染物向高层扩散,减轻低层大气污染。研究结果为该地边界层参数化方案的设计和污染的防治提供了参考依据。 相似文献
3.
M. A. Novitskii D. E. Gaitandzhiev N. F. Mazurin M. K. Matskevich 《Russian Meteorology and Hydrology》2011,36(9):580-589
Turbulence characteristics in the surface layer of the coastal area of Akhtopol (Bulgaria) under conditions of the breeze
circulation are measured. The measurements were carried out at the level of 4.5 m by means of three-component ultrasonic anemometer.
To estimate the wind regime in the atmospheric boundary layer, the sodar data and synoptic charts were used. All turbulent
characteristics except the correlation coefficient of the friction flow have an appreciable daily course in the case of the
sea breeze. In the frontal zone, some characteristics demonstrate sometimes short-term variations of their numerical values.
The sea-land front of the breeze circulation is effectively detected from the measurements of wind speed, wind direction,
and temperature in the surface layer. It is also possible to judge about the breeze circulation type and turbulence structure
in this layer on the basis of these measurements. 相似文献
4.
本文基于海陆风环流的形成机制,在研究分析海陆风环流形成的物理模型基础上,建立了海陆风环流的数学模型。根据此基础,以大连地区海陆风环流为计算实例,模拟了海陆风形成的压力场、速度场、温度场和湍流动能场的日变化及太阳辐射日变化的过程地面的能量变化及导致的湍流动能的变化,预测出海陆风环流的水平湍流扩散系数和动量、温度和湍流动能的垂直湍流扩散系数,为求解海陆风中的污染物扩散浓度以进行环境污染损失评价提供参考。应用此模型,对大连地区的海陆风环流进行了数值模拟,定性与定量地给出了海陆风场中的速度、压力、温度及湍流动能分布情况和主要参数值。结果表明,海陆风环流的大气压力场局地日变化较小,温度场变化较明显。在中午前后,动量、温度和湍流动能的垂直扩散系数达到了最大值。模拟结果与其他文献模拟结果的对比表明,本文建立的模型模拟与实验的结果相符,但预测精度仍需要进一步检验。 相似文献
5.
中国地区山谷风研究进展 总被引:1,自引:0,他引:1
随着城市化的发展,越来越多的城市建立在山区附近或山谷之中。受地理环境和气象条件等因素影响,各地山谷风特征各不相同。山谷风对局地风场、气候特征有着重要作用,与逆温和污染物浓度变化也具有良好相关。本文从山谷风研究的主要手段—观测、理论和数值模拟出发,重点回顾了国内山谷风研究成果,并讨论了与其他中尺度环流(海陆风、湖陆风、城市热岛、植被风、冰川风环流)的相互作用,以及包括山谷风在内的山地环流对大气污染的影响。最后对国内研究进展进行总结,并提出了一些还需深入研究和探讨的问题。 相似文献
6.
海风雷暴的观测分析和数值模拟研究进展 总被引:4,自引:0,他引:4
沿海地区经济相对繁荣,城市化水平较高,对天气和气候的依赖性强,突发性强对流天气所造成的灾害也会更加严重;同时沿海地区的强对流天气又与海风环流密切相关,因此沿海地区海风雷暴的研究受到了日益广泛的关注,成为了气象学和大气科学中的重要研究对象。在过去的半个多世纪中,海风雷暴的观测和模拟研究取得了大量的研究成果。本文通过对这些研究工作进行回顾和总结,系统地分析了国内外的研究现状,重点讨论了海风雷暴的结构和特征、发展演变过程、触发机制及其预报预警。最后对海风雷暴未来的研究方向进行了探讨,提出了一些有待于研究或需深入研究的问题,以利于今后更好的开展有关海风雷暴的工作,加深对其发生发展规律的认识,提高预报预警水平。 相似文献
7.
Summary The aim of this study is the evaluation of the sea breeze speed on the basis of its energy. Energetics of the sea breeze can
be studied by means of the available potential energy (APE). Part of this energy is transformed into the kinetic energy of
the sea breeze. Some similarity exists between the large scale processes of the circulation and the small coastal air circulation
due to the fact that both circulations are triggered by the same physics, i.e., solenoidal activity of the baroclinic atmosphere.
To evaluate the sea breeze speed, APE was calculated by use of the Lorenz’s equation (1955), and which is possible if the
coastal circulation is considered to be a closed system in a hydrostatic equilibrium. For calculations and verifications hourly
sea-surface temperatures, near-ground air temperatures and wind speed measurements, as well as the radio-sounding measurements
at 12 UTC were used at the Zadar station (ϕ = 44° 08′ N, λ = 15° 13′ E), which is situated in the central part of the eastern
Adriatic coast. Two days with an undisturbed sea breeze circulation were extracted using the methods for minimizing other
atmospheric influences. Calculated hourly near ground sea breeze speeds obtained in this way were higher than the measured
ones. With the assumption that some of the APE is transformed into the kinetic energy it is possible to obtain characteristic
speed of the developed sea breeze with small discrepancies to the near-ground measurements. If 6.6% of the mean daily near
ground APE was taken to be transformed to the mean daily kinetic sea breeze energy on the 29th and 4.2% on the 30th September
2002, the best agreement was obtained with the mean daily measured near ground sea breeze speed. This range of values can
be attributed to inability to extract precise values for the lapse-rate needed in the APE sea breeze calculations. Results
show similarities to the general circulation of the atmosphere, since about 10% of the APE is transformed to the kinetic energy
of the sea breeze. On the other hand calculated wind speed at the lower branch of the borderline coastal circulation was not
dependent on the integral value of the APE over the land, but on its value at the near-ground level. 相似文献
8.
J.-F. Miao L. J. M. Kroon J. Vilà-Guerau de Arellano A. A. M. Holtslag 《Meteorology and Atmospheric Physics》2003,84(3-4):157-170
Summary A three-dimensional non-hydrostatic atmospheric model RAMS, version3b, is used to examine the impact of complex topography on the sea breeze under heterogeneous and degradation land use characteristics. In the study, it is shown that topography plays an important role in the sea-breeze circulation by aligning the sea breeze front to the coastline and locating the convergence zones close to the mountain range. When the sea breeze is coupled with the upslope wind, the sea-breeze circulation is strengthened by the topography.Sensitivity analyses are carried out to determine the influence of vegetation and soil moisture, i.e., land surface modifications, to this thermally driven flow. Land degradation results in an enhanced sea-breeze circulation which is characterized by a stronger onshore flow, a stronger return current, a larger updraft velocity associated with the sea-breeze front and further inland penetration. Other important features are a deeper sea-breeze depth, a larger downdraft velocity behind the sea-breeze front, and a longer offshore extent. The results also show how land changes modify the sea breeze temporal evolution resulting in an earlier onset and later end. The study stresses the convenience of using three-dimensional models with detailed land surface information to model the sea breeze in complex terrain where land use is rapidly modified.Received February 25, 2002; accepted October 7, 2002
Published online April 10, 2003 相似文献
9.
Yongxiang Ma Jinyuan Xin Xiaoling Zhang Lindong Dai Klaus Schaefer Shigong Wang Yuesi Wang Zifa Wang Fangkun Wu Xinrui Wu Guangzhou Fan 《大气和海洋科学快报》2021,14(1):14-21
陆海风是由于海陆表面之间的比热容不同而导致的昼夜热量分布差异,从而在海岸附近引发的大气中尺度循环系统.本文利用多普勒风激光雷达Windcube100s首次对黄海西海岸的海陆风的循环结构进行了观测研究.在2018年8月31日至9月28日观测期间发现,海陆风发展高度一般在700 m至1300 m.海陆风转化持续的时间为6小时至8小时.在425m高度,海风水平风速出现最大值,平均为5.6 m s-1.陆风最大水平风速出现在370m,约为4.5 m s-1.最大风切变指数在1300m处,为2.84;在陆风向海风转换过程中,最大风切变指数在700m处,为1.28.在同一高度上,风切变指数在海风盛行和陆风盛行时的差值范围为0.2-3.6,风切变能反映出海陆风的发展高度. 相似文献
10.
Dhanya Pushpadas P. Vethamony K. Sudheesh Smitha George M. T. Babu T. M. Balakrishnan Nair 《Meteorology and Atmospheric Physics》2010,109(3-4):91-106
A high-resolution mesoscale numerical model (MM5) has been used to study the coastal atmospheric circulation of the central west coast of India, and Goa in particular. The model is employed with three nested domains. The innermost domain of 3 km mesh covers Goa and the surrounding region. Simulations have been carried out for three different seasons—northeast (NE) monsoon, transition period and southwest (SW) monsoon with appropriate physics options to understand the coastal wind system. The simulated wind speed and direction match well with the observations. The model winds show the presence of a sea breeze during the NE monsoon season and transition period, and its absence during the SW monsoon season. In the winter period, the synoptic flow is northeasterly (offshore) and it weakens the sea breeze (onshore flow) resulting in less diurnal variation, while during the transition period, the synoptic flow is onshore and it intensifies the sea breeze. During the northeast monsoon at an altitude of above 750 m, the wind direction reverses, and this is the upper return current, indicating the vertical extent of the sea breeze. A well-developed land sea breeze circulation occurs during the transition period, with vertical extension of 300 and 1,100 m, respectively. 相似文献
11.
Yongqiang LIU 《大气科学进展》2005,22(6):889-902
Land breeze is a type of mesoscale circulation developed due to thermal forcing over a heterogeneous landscape. It can contribute to atmospheric dynamic and hydrologic processes through affecting heat and water fluxes on the land-atmosphere interface and generating shallow convective precipitation. If the scale of the landscape heterogeneity is smaller than a certain size, however, the resulting land breeze becomes weak and becomes mixed up with other thermal convections like thermals. This study seeks to identify a scale threshold to distinguish the effects between land breeze and thermals. Two-dimensional simulations were performed with the Regional Atmospheric Modeling System (RAMS) to simulate thermals and land breeze. Their horizontal scale features were analyzed using the wavelet transform. The thermals developed over a homogeneous landscape under dry or wet conditions have an initial scale of 2-5 km during their early stage of development. The scale jumps to 10-15 km when condensation occurs. The solution of an analytical model indicates that the reduced degree of atmospheric instability due to the release of condensation potential heat could be one of the contributing factors for the increase in scale. The land breeze, on the other hand, has a major scale identical to the size of the landscape heterogeneity throughout various stages of development. The results suggest that the effects of land breeze can be clearly distinguished from those of thermals only if the size of the landscape heterogeneity is larger than the scale threshold of about 5 km for dry atmospheric processes or about 15 km for moist ones. 相似文献
12.
A complete yearly record (1988) of surface measurements is used to examine the atmospheric diurnal secondary circulations over the entire area of Hong Kong in conjunction with spatial and temporal variations of surface temperature, wind speed and rainfall. Evidence of atmospheric diurnal secondary circulations is found at 10 sites. The occurrence of a summer morning rainfall maximum over the coast results from the interaction of the large-scale summer monsoon and local mesoscale secondary circulations. The afternoon onshore secondary circulation accelerates the advection of warm, humid unstable air and, coupled with the upward orographic lifting, produces enhanced rainfall along windward mountain ridges.Dynamical and scaling considerations suggest that the blocking effect is negligible and the primary forcing mechanism is land-sea temperature difference, but terrain effects are also important. Although the secondary circulation system's strength and timing vary, the circulation behaves like a classic sea-land breeze circulation, complicated by superimposed mountain-valley breezes. 相似文献
13.
A two-dimensional numerical model witha simplified land-use paramaterizationis used to investigate the effects of land usetopography on local circulationsystems. A criterion is presented indicating therelative importance of land use onlocal circulations.Land-use contrast in the numerical model is parameterized by moisture availability and roughness length. Numerical experiments were carried out under various atmospheric stabilities with various dimensions for the mountains.Numerical results show the following: (1) Anabatic winds prevail in high mountains,while the land–land breeze is stronger when the horizontal contrast of the heat fluxfrom each land surface is large. (2) In the early morning, anabatic winds tend to prevailover land–land breezes, but the land–land breeze tends to prevail in the later afternoon.(3) While atmospheric stability has a large influence on the mesoscale circulation, thehorizontal scale of the mountain is not as important for the intensity of the mesoscalecirculation. (4) In strong stable conditions or weak insolation, the anabatic wind tendsto be more active than the land–land breeze; namely, the heat flux from inhomogeneousland use becomes a less important factor for the generation of a mesoscale disturbancethan the orographic forcing in the case of strong atmospheric stability. (5) The predominantmesoscale circulation is predicted by a criterion based upon the horizontal adjustmenttheory of the mixed layer. The criterion proposed in this study is based on the mountainheight, the ratio of the heat flux from the different land use patterns, the atmospheric staticstability, and the time-integrated heat flux. The criterion gives results that generally agreewith the numerical results. 相似文献
14.
海风锋与沿海强对流天气密切相关,而城市化发展对沿海地区下垫面的改变会对海风锋特征产生影响。鉴于此,本文利用耦合了新一代城市物理方案UCP-BEM(Urban Canopy Parameterization-Building Energy Model)的WRF(Weather Research and Forecasting)模式开展数值试验分析了城市下垫面对渤海湾海风锋特征的影响。结果显示:城市下垫面高粗糙度对低层海风风速的明显削弱造成海风锋往内陆推进距离稍减,低层辐合和上升运动减弱;城市下垫面较大的向上感热通量和较小的向上水汽通量以及高粗糙度对海风的削弱的共同作用造成冷湿海风对低层大气的降温和增湿幅度减弱;高粗糙度的城市下垫面对海风环流的摩擦力效应使得海风得到抬升,这导致了冷湿海风对低层大气的降温和增湿的垂直范围得到提升;受这些结果影响,海风锋背后低层有效位能减小,但垂直分布范围扩大,从而造成对流抑制高值区抬升,同时海风锋背后的静力不稳定区变厚,其上面的动力不稳定区则变薄,但不稳定区总厚度基本不变。 相似文献
15.
利用WRF-Noah耦合中尺度模式对海南岛2012年7月5日的多云海风个例进行三维高分辨率数值模拟,重点分析多云天气条件下复杂地形区域的海风环流结构及其演变特征。通过观测资料与模拟结果的对比发现,WRF模式能够合理地模拟出岛屿四周的海风演变特征。与少云海风日相似,多云海风日中全岛海风于12时开始形成,15时海风发展最为强盛,影响范围最广,18时全岛海风的辐合程度最强,海风辐合区是主要的潜在降水区域。对比山区与平坦地区的海风环流发现,山区海风环流强盛期为13—18时,而平坦地区海风环流强盛期为15—18时。复杂的山地对海风环流结构有直接和间接的影响:一方面在山地地形动力阻挡和抬升作用下,海风环流变得更加清晰完整,间接延长了海风环流的维持时间;另一方面局地地形热力作用形成的谷风环流与海风几乎同时产生和消亡,两者汇合后,谷风的瞬间加强会引起海风锋锋消,瞬间减弱会引起海风锋锋生;两者同相叠加会使得海风环流结构更加完整。相比之下,平坦地区的海风受到的地形动力和热力作用小,海风水平分布比较规则,海风环流垂直结构的变化主要取决于不同方向海风之间的相互作用。 相似文献
16.
17.
M. A. Novitskii L. K. Kulizhnikova O. Yu. Kalinicheva D. Gaitandzhiev D. Barantiev E. Bachvarova K. Krysteva 《Russian Meteorology and Hydrology》2012,37(3):159-164
The characteristics of wind speed and wind direction in the boundary atmospheric layer measured at the meteorological station
in Akhtopol (Bulgaria) are presented. The measurements were carried out with the Scintec sodar and MK-15 automatic meteorological
station. The sodar measurement data on wind parameters at different heights in different months are presented as well as the
frequency of inshore and offshore wind directions, that enables to trace the intensity of the breeze circulation. The frequency
of calms and wind speeds at the heights of 50, 100, and 200 m according to gradations for different months and the probability
of wind of various speeds depending on the direction are also given. The breeze front characteristics in June–September of
2009 are computed from the speed and direction of surface wind measured with the acoustic anemometer of MK-15 complex. 相似文献
18.
夏季河西地区绿洲-沙漠环境相互作用热力过程的初步分析 总被引:10,自引:6,他引:4
从绿洲和沙漠地面能量平衡方程和水分平衡方程出发,得到了表达绿洲稳定度和绿洲环流的表达式,绿洲地表温度低于沙漠的最主要原因是绿洲地表明显的蒸发。绿洲上大气稳定度的增加对于维持绿洲是一个重要的自我保护机制。从动力学角度来看,绿洲区明显的下沉(上升)运动将使大气稳定(不稳定)。反照率效应将减弱绿洲风环流,相反,蒸发效应会驱动它。绿洲中过多的蒸发使绿洲地表温度低于周围沙漠。这种温度差异使绿洲风环流产生,并且使绿洲区产生下沉运动、沙漠区产生上升运动。 相似文献
19.
滇池区域性环流的数值模拟 总被引:3,自引:0,他引:3
为了开发云南省滇池地区的磷资源,对云南滇池湖畔的中尺度环流状况进行了三维数值模拟,模式比较详细地考虑了各种物理过程,模拟结果与实测资料较吻合;滇池区域湖南白天为冷中心,夜间为暖中心;白天的垂直环流比夜间大得多,湖风比陆风影响范围也大得多,系统风对湖风影响较大。 相似文献
20.
Simultaneous observations were made of the Marine Boundary Layer at Tarapur, a site near Bombay on the sea coast, by acoustic sounder and instrumented tower. The meteorological tower was used to sense wind and temperature at various levels up to a height of 120 m while the acoustic sounder was used to examine the thermal structure of the boundary layer up to a height of 700 m. Data recorded for the year 1982 have been analysed.Analysis of the data shows that while the normal structures of thermal echoes and shear echoes represent the mixing depth of the atmospheric boundary layer, the often observed elevated layers are due to sea breeze reversals with their base giving a measure of the depth of the sea-breeze circulation during the day. A sea breeze has been detected during both spring (March to May) and autumn (October to December) months. The onset times are around 1000 hr during spring months and around noon during the autumn period, the height of development being respectively up to 500 and 350 m. The capability of the sodar to detect the base and thickness of the sea breeze, is clearly revealed. 相似文献