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1.
用国家标准GB/T13201中规定的方法计算了成都1980~1991年的大气混合层厚度,并用于绝热法和罗氏法计算了成都1988年的大气混合层厚度,结果表明:成都大气混合层厚度逐年变化不大,有明显的季节变化和日变化,大气稳定度是决定混合层厚度的主要因子。3种方法的对比表明:罗氏法比国家标准法更接近干绝热法的结果,因此在有常规地面观测资料的地方用罗氏法更准确些。 相似文献
2.
杨羽 《成都信息工程学院学报》1987,(1)
本文利用1986年中美联合青藏高原大气科学实验资料,对拉萨地区所存在的逆温现象尤其是边界层内存在的逆温进行了分析,试用耗散结构理论修正Tennekes等提出的数学模式建立了高原边界层内的混合层模式。 分析表明,拉萨地区白天仍有逆温存在。高原上的混合层具有比湿较海洋上不稳定和层底较高的特点。混合层的形成与逆温有关,逆温是混合层存在的边界约束条件之一,尤其在高原晴空区。 此外,本文还利用资料对本文所提出的混合层数学模式进行了验证和定性分析。 相似文献
3.
应用国家标准GB/T1320191规定的方法计算分析了重庆市1981~190年大气混合层厚度;并用罗氏法计算了重庆市1988年的大气混合层厚度;并对2种方法所得结果进行了对比分析。结果表明:重庆市大气混合层厚度多年的平均值为346m;逐年变化不明显;季节变化明显;日变化非常明显;大气稳定度是决定大气混合层厚度的主要因子。罗氏法因考虑的因子比较多,故较准确,因此在有常规观测资料的地方应用罗氏法较好 相似文献
4.
成都市混合层厚度的计算及方法对比 总被引:1,自引:0,他引:1
为揭示近年来成都市混合层厚度的变化特征,明晰不同混合层厚度计算方法之间的差异,利用成都市2004~2013年地面常规气象数据及同期探空数据,应用国标法、联合频率法以及干绝热法对该地大气混合层厚度进行计算分析。结果表明:国标法和联合频率法计算得到的混合层厚度年变化特征均呈下降趋势,干绝热法变化趋势平缓;国标法结果显示混合层厚度在夏季最高、冬季最低,联合频率法和干绝热法则是春季最高、秋冬季最低;就日变化而言,国标法的混合层厚度在14时最大、02时最小,此与联合频率法08时混合层厚度值最小不同。3种方法对比得到,国标法计算结果偏低,干绝热法和联合频率法计算精度较高。 相似文献
5.
为揭示近年来成都市混合层厚度的变化特征,明晰不同混合层厚度计算方法之间的差异,利用成都市2004~2013年地面常规气象数据及同期探空数据,应用国标法、联合频率法以及干绝热法对该地大气混合层厚度进行计算分析.结果表明:国标法和联合频率法计算得到的混合层厚度年变化特征均呈下降趋势,干绝热法变化趋势平缓;国标法结果显示混合层厚度在夏季最高、冬季最低,联合频率法和干绝热法则是春季最高、秋冬季最低;就日变化而言,国标法的混合层厚度在14时最大、02时最小,此与联合频率法08时混合层厚度值最小不同.3种方法对比得到,国标法计算结果偏低,干绝热法和联合频率法计算精度较高. 相似文献
6.
利用西安城郊PM2.5、PM10、SO2、NO2等污染物逐小时浓度和常规气象观测资料,通过分析2014年春节期间大气环流形势、近地面大气层温度等要素及空气质量浓度的时空变化特征,讨论了烟花爆竹燃放对环境空气的影响。结果表明:2014年春节期间西安高空受西北气流控制,地面处于低压中心,等压线稀疏,风力较弱;近地面大气连续4天出现平均高度980 m的接地逆温,低空受东北气流控制,气象条件非常稳定;燃放烟花爆竹产生的特征污染物主要有PM2.5、PM10、SO2和CO等,PM2.5、PM10和SO2在除夕集中燃放时达到浓度最高值,分别是前期稳定状态下平均值的1.5、1.84和1.17倍;燃放烟花爆竹对PM10浓度的影响最大,其次为PM2.5;冷空气作用对粒径较小的PM2.5清除效果较好。 相似文献
7.
丽江市冰雹天气的红外云图和雷达回波特征分析 总被引:1,自引:0,他引:1
利用丽江市2006—2008年3—9月的25次降雹资料,分析了丽江市冰雹时空分布特征和大气环流特征。选取2008年3月22日、6月9日和9月24日发生在丽江3次冰雹天气过程的红外云图和雷达回波进行分析,结果表明:春季南支槽冰雹天气云层厚度小(类似层状云降水)且TBB值较高,冰雹云雷达回波强度弱,高度低;夏秋季节在典型环流背景下,强对流冰雹云的TBB值最低、最集中、附近强对流天气单体活动最剧烈,在雷达回波上表现为较大区域内出现有组织、相对孤立的点状回波,这些点状回波发展较快、生命史较长,通过雷达加密监测,可及时发现对流天气并及时预警。 相似文献
8.
为探索广汉机场雾发生发展的机制,确保飞行安全,提高预报准确率,利用广汉机场地面观测资料、Mi—caps系统下的常规观测资料、探空资料和NCEP/NCAR再分析资料,采用天气诊断分析方法,对2012年11月13日-15日广汉机场持续性的辐射平流雾进行分析。结果表明,雾是在稳定的天气背景下形成。夜间地面长波辐射冷却触发了这次雾的形成,而在轻雾转大雾期间,地面长波辐射冷却作用明显减弱,低层暖湿平流则起到了主要作用。与典型辐射平流雾不同的是成雾后,机场由脊前西北气流转为南支槽前西南气流控制,天空中云量的迅速增加使得雾进一步加强。 相似文献
9.
基于ECMWF全球大气模型和中国地面气候资料日值数据集中新疆及周边的气象站气压数据,根据弹性地壳形变理论,采用移去-恢复法,利用负荷格林函数法和球谐函数法,计算新疆及周边区域2011~2015年大气负荷变化对地壳垂直、水平形变的影响,同时采用大气导纳方法计算大气变化对地面重力的影响。结果表明,大气负荷对新疆地区垂直形变的影响达到cm级,对地面重力的影响可达10 μGal;大气负荷影响具有明显的季节性。 相似文献
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In this paper, a heavy sea fog event occurring over the Yellow Sea on 11 April 2004 was investigated based upon observational and modeling analyses. From the observational analyses, this sea fog event is a typical advection cooling case. Sea surface temperature(SST) and specific humidity(SH) show strong gradients from south to north, in which warm water is located in the south and consequently, moisture is larger in the south than in the north due to evaporation processes. After fog formation, evaporation process provides more moisture into the air and further contributes to fog evolution. The sea fog event was reproduced by the Regional Atmospheric Modeling System(RAMS) reasonably. The roles of important physical processes such as radiation, turbulence as well as atmospheric stratification in sea fog’s structure and its formation mechanisms were analyzed using the model results. The roles of long wave radiation cooling, turbulence as well as atmospheric stratification were analyzed based on the modeling results. It is found that the long wave radiative cooling at the fog top plays an important role in cooling down the fog layer through turbulence mixing. The fog top cooling can overpower warming from the surface. Sea fog develops upward with the aid of turbulence. The buoyancy term, i.e., the unstable layer, contributes to the generation of TKE in the fog region. However, the temperature inversion layer prevents fog from growing upward. 相似文献
12.
A stratus-sea fog event that occurred over the Yellow and East China Seas on 3 June 2011 is investigated using observa-tions and a numerical model, with a focus on the effects of background circulation and Sea Surface Temperature Front (SSTF) on the transition of stratus into sea fog. Southerly winds of a synoptic high-pressure circulation transport water vapor to the Yellow Sea, creating conditions favorable for sea fog/stratus formation. The subsidence from the high-pressure contributes to the temperature inversion at the top of the stratus. The SSTF forces a secondary circulation within the ABL (Atmospheric Boundary Layer), the sink-ing branch of which on the cold flank of SSTF helps lower the stratus layer further to reach the sea surface. The cooling effect over the cold sea surface counteracts the adiabatic warming induced by subsidence. The secondary circulation becomes weak and the fog patches are shrunk heavily with the smoothed SSTF. A conceptual model is proposed for the transition of stratus into sea fog over the Yellow and East China Seas. Finally, the analyses suggest that sea fog frequency will probably decrease due to the weakened SSTF and the reduced subsidence of secondary circulation under global warming. 相似文献
13.
本文通过哀劳山东西坡剖面观测资料的分析,用数理统计方法建立了山区逆温的判别方程和逆温层顶高度的线性及非线性回归方程,并对影响逆温及其顶高的气象因子进行了分析。 相似文献
14.
The Chinese east coastal areas and marginal seas are foggy regions.The development of effective forecasting methodsrests upon a comprehensive knowledge of the fog phenomena.This study provides new observations associated with the sea fogsover the northwestern Yellow Sea by means of L-band radar soundings with a high vertical resolution of 30 m.The monthly tem-perature lapse rate,the Richardson Numbers,and the humidity show obvious seasonal variations in the lower level of the planetaryboundary layer (PBL) that are related to the onset,peak and end of the Yellow Sea fog season.The typical pattern of stratification forthe sea fog season in the northwestern Yellow Sea is that a stable layer of about 400 m thick caps a 150 m conditionally unstable layer.Besides,the differences between fogs and stratus clouds in terms of humidity,turbulence and temperature are analyzed,which is ofsignificance for sea fog forecast and detection by satellites.The thickness of the sea fogs varies in different stages of the fog season,and is associated with the temperature inversion.The numerical simulation proves that the seasonal variations obtained by the radarwell represent the situations over the Yellow Sea. 相似文献
15.
The Bohai Sea is a low-lying semi-enclosed sea area that is linked to the Yellow Sea via the Bohai straits(mixed zone). Its of fshore seabed is shallow, which makes it vulnerable to serious marine meteorological disasters associated with the northward passage of Pacific tropical cyclones. Analyses on data of remote sensing and buoy of the mixed zone of the Yellow and Bohai seas indicate that all the wind speed, significant wave height, and salinity(SAL) increased, sea surface temperature decreased, and wind energy density changed considerably during the passage of tropical cyclone Matmo on July 25, 2014. It was found that the SAL inversion layer in the mixed zone of the Yellow and Bohai Seas was caused by the tropical cyclone. Furthermore, it was found that the tropical cyclone transported the northern Yellow Sea cold water mass(NYSCWM) into the mixed zone of the Yellow and Bohai Seas. The NYSCWM has direct influence on both the aquaculture and the ecological environment of the region. Therefore, further research is needed to establish the mechanism behind the formation of the SAL inversion layer in the mixed zone, and to determine the influence of tropical cyclones on the NYSCWM. 相似文献
16.
Both low clouds and elevated ducts are common phenomena in the oceanic atmosphere. Low clouds affect elevated ducts by changing the structure of atmospheric temperature and humidity. However, due to the limitation of met-ocean measurements, research on them is still scattered. This paper presents the distribution of elevated ducts and clouds over the central Western Pacific Ocean(WPO) based on Global Position System(GPS) sounding data and Himawari-8 satellite products from November 2015 to January 2016. Results show that the frequency of elevated ducts detected by ship-based GPS soundings was as high as 77% over the central WPO. The height and frequency of elevated ducts are closely related to the low clouds. If there are no clouds, the occurrence probability and mean base height of the elevated ducts are 14% and 730 m, respectively. By comparison, the occurrence probability and mean base height increase up to 24% and 1471 m, respectively, in the presence of cumulus(Cu) clouds, and 22% and 1511 m, respectively, in the presence of stratocumulus(Sc) clouds. Elevated ducts occur near the cloud top. The analysis of geopotential height and wind fields from the European Centre for Medium-Range Weather Forecasts(ECMWF) reanalysis dataset(ERA-interim) shows that the study area is covered by a strong and stable subtropical high, and slowly sinking dry air masses inside the subtropical high are above the moist boundary-layer air mass. The appearance and evolution of low clouds will adjust the temperature and humidity structure of the lower troposphere. If there are no clouds, the marine boundary layer(MBL) is the classic mixed boundary layer. Humidity gradient and subsidence inversion are formed atop the mixed layer. When low clouds are present, long wave radiation and entrainment atop clouds form a strong temperature inversion and humidity gradient, which strengthen elevated ducts. However, when Sc clouds are decoupled, a weaker temperature inversion and humidity gradient may occur between the surface mixed layer and subcloud layer, leading to a weak elevated duct atop the mixed layer. 相似文献
17.
Observational data obtained during the TOGA-COARE IOP in the "warm pool" area of the West-ern Tropical Pacific were used to analyze some characteristics of the intraseasonal variations in the mixedlayer. The influence of westerly burst and rainfall on SST, salinity. and mixed layer depth are discussed.There are two pairs of counteracting processes in the "warm pool" mixed layer: (1) The increase of mixedlayer depth caused by local westerly bursts and the decrease of mixed layer depth caused by larger scaleeasterly relaxation;(2) the vertical mixing by local wind and the strong stratification due to rainfall in themixed layer. Some possible mechanisms through the interactions between the intraseasonal time scale varia-tions of the oceanic mixed layer and atmospheric low frequency oscillations are revealed. 相似文献
18.
Atmospheric turbulence plays a vital role in the formation and dissipation of fog. However,studies of such turbulence are typically limited to observations with ultrasonic anemometers less than 100 m above ground. Thus,the turbulence characteristics of upper fog layers are poorly known. In this paper,we present 4-layers of data,measured by ultrasonic anemometers on a wind tower about 400 m above the sea surface; we use these data to characterize atmospheric turbulence atop a heavy sea fog. Large differences in turbulence during the sea fog episode were recorded. Results showed that the kinetic energy,momentum flux,and sensible heat flux of turbulence increased rapidly during the onset of fog. After onset,high turbulence was observed within the uppermost fog layer. As long as this turbulence did not exceed a critical threshold,it was crucial to enhancing the cooling rate,and maintaining the fog. Vertical momentum flux and sensible heat flux generated by this turbulence weakened wind speed and decreased air temperature during the fog. Towards the end of the fog episode,the vertical distribution of sensible heat flux reversed,contributing to a downward momentum flux in all upper layers. Spatial and temporal scales of the turbulence eddy were greater before and after the fog,than during the fog episode. Turbulence energy was greatest in upper levels,around 430 m and 450 m above mean sea level(AMSL),than in lower levels of the fog(390 m and 410 m AMSL); turbulence energy peaked along the mean wind direction. Our results show that the status of turbulence was complicated within the fog; turbulence caused fluxes of momentum and sensible heat atop the fog layer,affecting the underlying fog by decreasing or increasing average wind speed,as well as promoting or demoting air temperature stratification. 相似文献
19.
“重庆雾害”课题组 《成都信息工程学院学报》1992,(2)
本方法从动力、统计相结合的角度出发,利用多年历史资料,采用逐步回归方法并辅以技术处理,求得非线性回归方程为PP模型的预报方程,并且利用正压模式输出的两个月数值预报产品进行了试报,结果表明该模型对重庆雾的24小时预报具有一定的能力。 相似文献