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分别基于微波辐射计温湿度廓线资料的气块法、位温法和比湿法,地面气象资料的罗氏法及气溶胶激光雷达数据的梯度法,计算得出广州地区大气边界层高度,对比分析5种边界层高度结果及其与气象条件、空气质量之间的关系,结合典型大气污染过程分析边界层高度对PM2.5、O3浓度的影响。结果显示:(1)利用位温法、气块法、罗氏法、比湿法和梯度法计算得出广州地区平均边界层高度分别为2 207 m、1 239 m、901 m、717 m和660 m,位温法显著高估了广州地区的边界层高度;(2)利用气块法得出的混合层高度日变化能够较好地表征白天大气边界层演变特征,利用气块法和比湿法得出的白天混合层高度与近地面O3浓度有显著的正相关关系,相关系数在0.5以上,在O3污染防治中,应同时考虑边界层内垂直输送的影响;(3)利用梯度法得出的边界层高度在污染天气时与PM2.5浓度的相关性较好,能较好地表现出大气污染情况,在PM2.5污染天气过程分析中具有较好的应用价值。 相似文献
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Study on Physical Mechanism of Influence on Atmospheric Boundary Layer Depth in the Arid Regions of Northwest China 总被引:1,自引:0,他引:1 
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下载免费PDF全文 Using the sounding data of wind, temperature, and humidity in the boundary layer and micrometeorological data on the earth's surface observed in the same period in Dunhuang arid region of Northwest China,this paper researches characteristics of potential temperature, wind, and humidity profiles, confirms the structure and depth of thermodynamic boundary layer in Dunhuang region, and analyzses the relationship of depth of thermodynamic boundary layer with surface radiation, buoyancy flux as well as wind speed and
wind direction shear in the boundary layer. The results show that the maximum depth of diurnal convective boundary layer is basically above 2000 m during the observational period, many times even in excess of 3000 m and sometimes up to 4000 m; the depth of nocturnal stable boundary layer basically maintains within a range of 1000-1500 m. As a whole, the depth of atmospheric boundary layer is obviously bigger than those results observed in other regions before. By analyzing, a preliminary judgement is that the depth
of atmospheric thermodynamic boundary layer in Dunhuang region may relate to local especial radiation characteristics, surface properties (soil moisture content and heat capacity) as well as wind velocity shear of boundary layer, and these properties have formed strong buoyancy flux and dynamic forcing in a local region which are fundamental causes for producing a super deep atmospheric boundary layer. 相似文献
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利用2015年7月至2016年5月寿县稻麦轮作农田区观测站地基多通道微波辐射计观测的高时间分辨率温度廓线资料,结合位温梯度法,计算了该站点的大气边界层高度,分析了边界层高度的日、月和季节演变规律。结果显示,晴朗天气情况下,边界层高度具备典型的日变化特征,随着地面温度的升高边界层高度不断增大。其最大平均值通常出现在午后,8月平均高度最高,超过1520m,1月最低,只有520m。而且边界层高度具有季节变化趋势,春季(3—5月)、夏季(6—8月)、秋季(9—11月)和冬季(12月至次年2月)平均高度分别为436m,499m,377m和322m。将边界层高度结果与FNL和ERA-Interim数据进行对比,发现在白天时间段(08:00—19:00)FNL和ERA-Interim比观测平均值分别高258m,346m,夜间时间段(19:00至次日08:00)比观测平均值分别低144m,102m。 相似文献
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川西西南涡加密探空资料分析及数值模拟试验 总被引:1,自引:0,他引:1
本文利用2010年夏,在名山、九龙、稻城三地进行的西南涡加密观测试验所取得的探空资料对川西地区的大气要素场的日变化特征进行分析,认为:3个测站的大气各个要素场的日变化特征明显,整层的风都具有日变化特征,边界层内风场的日变化更为规律一些,能观测到明显的夜间大风速带.温度和湿度场主要受下垫面影响,日变化特征只在边界层内体现.名山平均的边界层高度约为800hPa,九龙和稻城平均的边界层高度约为500hPa.3个测站相比而言,名山站的日变化幅度最小,而九龙站最为突出.将加密的探空资料引入AREM模式中,可以看到在有西南低涡存在的情况下,增加3个探空站资料后形成的初始场更有利于降水天气的产生.但主导整个模拟结果的因素还是模式系统本身,它对模拟结果产生效力主要在前24小时,其后的影响非常微弱. 相似文献
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G. Mastrantonio V. Malvestuto S. Argentini T. Georgiadis A. Viola 《Meteorology and Atmospheric Physics》1999,71(1-2):127-132
Summary The development of a convective boundary layer over the Antarctic Plateau is documented by a Doppler minisodar data-set recorded
during a 10 day campaign in January 1997. The vertical velocities associated with thermals do not exceed 1 m/s, while the
depth of the convective layer, usually less than 200 m, never surpasses 300 m. Measurements of momentum flux, sensible heat
flux, wind speed and radiation budget show characteristics that are typical of a convective boundary layer evolution. The
diurnal behaviour of absolute humidity, however, exhibits features that are not expected, e.g. anticorrelation with incoming
net radiation and air temperature.
Received October 30, 1998 Revised May 26, 1999 相似文献
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北京市夏季臭氧变化特征的观测研究 总被引:9,自引:0,他引:9
利用2002年7月至8月325m气象塔资料研究了北京市夏季近地层臭氧浓度变化特征及其与气象因子的关系。结果表明:北京市夏季边界层臭氧浓度日变化显著.臭氧浓度随高度增加而增加;臭氧多数为单峰型分布,双峰型仅分布在底层;臭氧峰值出现时间与气温峰值出现时间基本一致,或略有落后。 相似文献
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M. A. Tadross W. J. Gutowski Jr B. C. Hewitson C. Jack M. New 《Theoretical and Applied Climatology》2006,86(1-4):63-80
Summary Two cumulus convection and two planetary boundary layer schemes are used to investigate the climate of southern Africa using
the MM5 regional climate model. Both a wet (1988/89) and a dry (1991/92) summer (December–February, DJF) rainfall season are
simulated and the results compared with three different observational sources: Climate Research Unit seasonal data (precipitation,
2 m surface temperature, number of rain days), satellite-derived diurnal precipitation and the Surface Radiation Budget diurnal
short-wave fluxes and optical depth.
Using the ETA model boundary layer in MM5 simulates too much incident short-wave radiation at the surface at 12 UTC, whereas
the medium range forecast model boundary layer yields a diurnal cycle of short-wave radiation closer to the observed. The
Betts-Miller convection scheme in MM5 simulates peak rainfall later in the day and less rain days than observed, whereas when
using the Kain-Fritsch convection scheme a peak rainfall earlier in the day and more rain days than observed are simulated.
The intensity of the hydrological cycle is therefore dependent on the choice of convection scheme, which in turn is further
modified by the boundary layer scheme. Precipitation during the wet 1988/89 season is reasonably captured by most simulations,
though using the Betts-Miller scheme more accurately simulates rainfall during the dry 1991/92 season. Mean DJF biases in
the surface temperature and diurnal temperature range are consistent with biases in the number of rain days and the diurnal
cycles of surface moisture and energy. 相似文献
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P. Ricaud C. Genthon P. Durand J. -L. Attié F. Carminati G. Canut J. -F. Vanacker L. Moggio Y. Courcoux A. Pellegrini T. Rose 《Boundary-Layer Meteorology》2012,143(1):227-259
The HAMSTRAD (H2O Antarctica Microwave Stratospheric and Tropospheric Radiometers) microwave radiometer operating at 60?GHz (oxygen line, thus temperature) and 183?GHz (water vapour line) has been permanently deployed at the Dome C station, Concordia, Antarctica [75°06??S, 123°21??E, 3,233?m above mean sea level] in January 2010 to study long-term trends in tropospheric absolute humidity and temperature. The great sensitivity of the instrument in the lowermost troposphere helped to characterize the diurnal cycle of temperature and H2O from the austral summer (January 2010) to the winter (June 2010) seasons from heights of 10 to 200?m in the planetary boundary layer (PBL). The study has characterized the vertical resolution of the HAMSTRAD measurements: 10?C20?m for temperature and 25?C50?m for H2O. A strong diurnal cycle in temperature and H2O (although noisier) has been measured in summertime at 10 m, decreasing in amplitude with height, and phase-shifted by about 4?h above 50?m with a strong H2O?Ctemperature correlation (>0.8) throughout the entire PBL. In autumn, whilst the diurnal cycle in temperature and H2O is less intense, a 12-h phase shift is observed above 30?m. In wintertime, a weak diurnal signal measured between 10 to 200?m is attributed to the methodology employed, which consists of monthly averaged data, and that combines air masses from different origins (sampling effect) and not to the imprint of the null solar irradiation. In situ sensors scanning the entire 24-h period, radiosondes launched at 2000 local solar time (LST) and European Centre for Medium-Range Weather Forecasts (ECMWF) analyses at 0200, 0800, 1400 and 2000 LST agree very well with the HAMSTRAD diurnal cycles for temperature and relatively well for absolute humidity. For temperature, HAMSTRAD tends to be consistent with all the other datasets but shows a smoother vertical profile from 10 to 100?m compared to radiosondes and in-situ data, with ECMWF profiles even smoother than HAMSTRAD profiles, and particularly obvious when moving from summer to winter. For H2O, HAMSTRAD measures a much moister atmosphere compared to all the other datasets with a much weaker diurnal cycle at 10?m. Our study has helped characterize the time variation of the PBL at Dome C with a top around 200?m in summertime decreasing to 30?m in wintertime. In summer, from 2000 to 0600 LST a stable layer is observed, followed by a well-mixed layer the remaining time, while only a nocturnal stable layer remains in winter. In autumn, a daytime convective layer shallower than the nocturnal stable layer develops. 相似文献
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本文将2009年7月高原考察获得的一些观测资料与T639资料进行对比分析,得到以下结论:通过比较拉萨、那曲、定日三地探空观测和T639资料给出的风场、湿度场和温度场廓线发现,两者给出的风场廓线形态比较一致,风速大小略有差异;整层相对湿度的差异都很大,尤其是0000UTC时刻相对湿度廓线的形态和值都与探空观测有着显著差异,几乎没有体现出逆湿的特性;温度场的差异主要体现在边界层大气中。地面自动站资料与T639地表资料的比较结果是,T639资料给出的高原腹地大部分区域温度和比湿都比观测值偏低,而风速的分布形态存在显著差异。地表通量的日变化特征显示,由于下垫面状况的差异,拉萨与林芝和青海湖地区相比,感热通量和动量通量大些,潜热通量小些。 相似文献
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利用宜昌2007年12月10-25日的加密观测资料,分析了两次低值系统经过宜昌时大气边界层的温湿风廓线结构及其日变化特征。结果表明:位温廓线具有明显的日变化特征,对流边界层在白天出现和发展,其高度可达600m,而稳定边界层在夜间出现和发展,其高度可达300m,降水会抑制对流边界层和稳定边界层的发展;湿度廓线结构及其日变化与对流边界层的发展有关,总体上湿度随高度减小,贴近地面的薄层湿度随高度减小较快,而混合层内湿度随高度变化较小,出现降水时,近地层的湿度有明显增加,大气边界层内湿度随高度快速平稳减小;风速廓线结构比较复杂,总体上风速随高度增大,在大气边界层低层有时会出现一个风速极大值,风速廓线没有明显的日变化特征,大气边界层内风向变化较大,但以偏东风为主。 相似文献
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Two surface layer parameterization schemes along with five planetary boundary layer (PBL) schemes in the Weather Research and Forecasting model (WRF) are analyzed in order to evaluate the performance of the WRF model in simulating the surface variables and turbulent fluxes over an Indian sub-continent region. These surface layer schemes are based on the fifth-generation Pennsylvania State University—National Center for Atmospheric Research Mesoscale Model (MM5) parameterization; (a) Old MM5 scheme having Businger-Dyer similarity functions and (b) revised MM5 scheme utilizing the functions that are valid for full ranges of atmospheric stabilities. The study suggests that each PBL scheme can reproduce the diurnal variation of 2 m temperature, momentum flux and sensible heat flux irrespective of the surface layer scheme used for the simulations. However, a comparison of model-simulated values of surface variables and turbulent fluxes with observed values suggests that each PBL scheme is found to systematically over-estimate the nocturnal 2 m temperature and 10 m wind speed with both the revised and old schemes during stable conditions. 相似文献
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This paper uses a Modified Soil-Plant-Atmosphere Scheme (MSPAS) to study the interaction betweenland surface and atmospheric boundary layer processes. The scheme is composed of two main parts:atmospheric boundary layer processes and land surface processes. Compared with SiB and BATS, which arefamous for their detailed parameterizations of physical variables, this simplified model is more convenientand saves much more computation time. Though simple, the feasibility of the model is well proved inthis paper. The numerical simulation results from MSPAS show good agreement with reality. The schemeis used to obtain reasonable simulations for diurnal variations of heat balance, potential temperature ofboundary layer, and wind field, and spatial distributions of temperature, specific humidity, vertical velocity,turbulence kinetic energy, and turbulence exchange coefficient over desert and oasis. In addition, MSPAS isused to simulate the interaction between desert and oasis at night, and again it obtains reasonable results.This indicates that MSPAS can be used to study the interaction between land surface processes and theatmospheric boundary layer over various underlying surfaces and can be extended for regional climate andnumerical weather prediction study. 相似文献
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Osamu Tsukamoto 《Boundary-Layer Meteorology》1986,35(4):349-368
The turbulent structure of the planetary boundary layer (PBL) is investigated based on measurements from a 213 m meteorological tower. It is found that the sensible heat flux decreases with height, resulting in a temperature increase during the daytime. On the other hand, the water vapor flux is almost constant with height and the diurnal variation of specific humidity is not so clear. Time variations of sensible heat flux and water vapor flux are closely correlated to the variation of net radiation and some differences are seen in their response times. Transient processes in the mixed layer including those related to the moisture structure are also investigated during periods of development and disappearance of the layer. 相似文献
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采用西南地区巫溪大官山同一坡面10个不同海拔高度梯度观测站2019~2020年逐小时温湿观测资料,分析了气温、气温直减率、日较差和相对湿度的梯度变化特征。结果表明:观测期间,气温随海拔升高而降低,海拔2000 m以上区域秋、冬季常出现逆温或同温现象;年平均气温递减率为0.57℃/100 m,最大值出现在3月和9月,分别为0.63℃/100 m和0.62℃/100 m,2月最低为0.49℃/100 m;日较差总体随海拔升高而减小,但在海拔1065~1222 m,出现了日较差随海拔升高而快速下降的突变区;年、春季在海拔1222~2180 m,秋季在海拔1222~2550 m,出现了日较差相对稳定层,其它季节不太明显。在海拔1670 m以下区域,年相对湿度为78.5%,夏季最大(85.3%),秋季次之(82%),冬季再次(74.3%),春季最低(72.3%);随着海拔升高云雾出现频率增大,年和各季相对湿度均随之增大;海拔1670~1930 m为突变区间,相对湿度迅速增加,在海拔1930~2550 m,年、春、夏、秋季处于云中的时间较多,相对湿度变化不大;冬季由于云层低,海拔较高的区域常处于云的上方,相对湿度随海拔升高反而有所减小。 相似文献
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气象预报是影响大气重污染预报精度的关键所在。针对2016年12月16~21日北京市一次重污染过程,开展了中尺度气象模式WRF的参数化方案配置敏感性试验。对微物理过程、长波辐射过程、短波辐射过程、陆面过程、边界层过程、近地面过程以及积云对流参数化过程进行组合优选,共设计51组参数化方案组合,分析不同模拟方案下北京市8个气象站点温度、相对湿度、10 m风速的模拟精度及其敏感性。试验结果表明:温度模拟对长波过程参数化方案最为敏感,集合离散度达2.4~7.4°C,再次是短波过程参数化方案;相对湿度模拟也对长波过程参数化方案最敏感,再次是陆面过程;风速模拟对不同过程参数化方案的敏感性程度差异不大。通过模拟结果与观测的统计对比,优选出模拟误差最小的方案组合为Lin微物理方案、RRTMG长波方案、RRTMG短波方案、Tiedtke积云对流方案、Noah陆面方案、MYNN 3rd边界层方案和MYNN近地面方案,并将其与集合平均、基准方案进行对比。对于集合平均来说,其温度模拟与观测相关系数为0.69,高于基准方案,其模拟偏差与均方根误差比基准方案低25%和11%;集合平均的相对湿度和风速模拟相比基准方案变化较小。与集合平均相比,优选方案能同时改进温度、相对湿度和风速模拟,使温度模拟偏差和均方根误差比基准方案下降35%和17%,使相对湿度模拟偏差和均方根误差下降43%和13%,使风速模拟偏差和均方根误差下降33%和24%。以上结果表明,参数化方案的敏感性试验和优选能显著减小重污染期间气象要素的模拟误差,重污染预报改进需重点关注参数化方案模拟上的不确定性。本研究也发现MYNN3rd边界层方案在这次重污染过程的气象要素模拟上具有良好性能,可为未来重污染预报改进提供参考。 相似文献
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SENSITIVITY TESTS OF INTERACTION BETWEEN LAND SURFACE PHYSICAL PROCESS AND ATMOSPHERIC BOUNDARY LAYER* 下载免费PDF全文
下载免费PDF全文 LIU Shuhu WEN Pinghui ZHANG Yunyan HONG Zhongxiang HU Fei LIU Huizhi 《Acta Meteorologica Sinica》2002,16(4):451-469
In this paper,an interactive model between land surface physical process and atmosphere boundary layer is established,and is used to simulate the features of soil environmental physics,surface heat fluxes,evaporation from soil and evapotranspiration from vegetation and structures of atmosphere boundary layer over grassland underlying.The sensitivity experiments are engaged in primary physics parameters.The results show that this model can obtain reasonable simulation for diurnal variations of heat balance,soil volumetric water content,resistance of vegetation evaporation,flux of surface moisture,and profiles of turbulent exchange coefficient,turbulent momentum,potential temperature,and specific humidity.The model developed can be used to study the interaction between land surface processes and atmospheric boundary layer in city regions,and can also be used in the simulation of regional climate incorporating a mesoscale model. 相似文献