共查询到20条相似文献,搜索用时 421 毫秒
1.
《干旱气象》2020,(1)
利用塔克拉玛干沙漠大气环境综合观测试验站——塔中站2014年30 min步长实测数据,系统分析塔克拉玛干沙漠腹地地表辐射和能量平衡特征及小气候特征。结果表明:塔中地区辐射平衡和能量平衡各分量均表现为春、夏季较大,秋、冬季较小,并具有明显的日变化特征,峰值出现在12:00(地方时,下同)左右。该地区地表能量通量(净辐射通量、感热通量、潜热通量和土壤热通量)中,净辐射、感热通量和土壤热通量均在08:00开始上升,至14:00左右达到峰值,而潜热通量变化很小。感热通量为能量的主要消耗形式,春、夏、秋、冬四季分别占净辐射的百分比为44. 6%、68. 1%、55. 2%和55. 3%,其次为土壤热通量,仅有很少能量用于水的相变。云和沙尘对能量通量各分量有明显削弱作用。近地层空气温度白天随高度的增加降低,夜晚则随高度的增加升高,空气相对湿度也呈明显变化规律。近地层水平风速随高度增加明显增大,风向以东北风为主。 相似文献
2.
3.
用大理、理塘和林芝的地面自动气象站资料,对比分析3站气温、相对湿度、本站气压、瞬时风速、地面温度的日变化特征.结果表明:大理、理塘和林芝气温最低值和相对湿度最大值的出现时间分别为7时、7时左右和8时左右,气温最高值和相对湿度最小值出现的时间均在16时左右.3站气压日变化呈"双峰双谷型",2个高峰值时段分别出现在10时左右和凌晨0~1时,2个低谷值时段分别出现在17时左右和5时左右.风速在凌晨至7时左右较低,之后至傍晚不断增大并出现极大值,日落后逐渐减小.3站地面温度7时左右出现最低值,14时左右出现最高值.从季节变化情况看,气温和地面温度出现最高值、最低值的月份及变化幅度最大的月份基本相同.地面温度增、降幅度最大的季节分别是春季、秋季.气压随季节变化幅度较气温、相对湿度小.初春风速较大,秋季风速较小,风速对相对湿度有一定影响,大理和林芝相对湿度出现最小值的月份与风速出现最大值的月份相同.各要素值基本是大理最大,林芝次之,理塘最小,这与3站的纬度、海拔高度和下垫面性质有关. 相似文献
4.
5.
一种城市地表能量平衡模式在上海的模拟评估 总被引:1,自引:1,他引:0
利用一整年的上海城区常规气象和地表能量平衡观测资料,驱动和检验了局地城市地表能量(水分)平衡模式(SUEWS/LUMPS)在上海地区的模拟能力,并对模式输入参数进行了部分本地化。模拟结果表明,SUEWS模式较好地再现了各辐射通量的日变化形态,对净辐射通量(Q~*)中午日峰值低估约为25 W·m~(-2);模式对四个季节向下长波辐射通量(L_↓)的日变化幅度均被低估,对向上长波辐射通量(L_↑)的模拟明显优于L_↓。SUEWS/LUMPS模式对感热通量(Q_H)各季节(春季除外)日峰值出现时次均有准确模拟,而对Q_H量值各季节均为低估;SUEWS模式在夏、秋季对白天潜热通量(Q_E)的模拟均优于LUMPS模式,而在冬、春季的模拟情况两者接近;SUEWS模式成功再现了储热通量(△Q_S)冬、春、秋季早、晚正负值转换时间,而在夏季滞后了2 h,模拟的△Q_S量值季节差异性较大。对模式误差随气温、风速及风向变化进行分析表明,在较高气温和较大风速下,Q_H、Q_E均表现为低估误差增大,而△Q_S则相反,表现为更显著地高估;风向的影响主要表现为模式未考虑东面密集建筑群而使得Q_H较明显低估约为-50 W·m~(-2),而西侧公园绿地的存在使得Q_H高估约15 W·m~(-2)。 相似文献
6.
利用中国科学院2005年珠穆朗玛峰地区科学考察期间 (4月2日至6月7日) 收集的大气观测资料,分析了珠峰绒布河谷近地层水平风速、温度、湍流强度、湍流通量日变化及地表能量平衡特征。通过分析得出近地层三维风速方差与稳定度的关系基本满足1/3次方规律;珠峰绒布河谷近地层大气水平风速、温度、动量通量、感热通量和潜热通量均存在明显的日变化;地表获得的能量很大一部分以感热形式散失掉了,潜热所占比重很小。另外,还发现绒布河谷地区地表能量通量各分量并不满足能量平衡方程Rn=Hs+Le+G。通过对地面加热场的分析发现珠峰地表白天是强热源,晚上转变为弱冷源。 相似文献
7.
1961~2010年黄河中下游地区24节气气候变化特征分析 总被引:2,自引:0,他引:2
24节气是我国古代劳动人民的独特创造。全面掌握"24节气"的气候变化规律,不但有利于指导农事生产,提高气象服务质量和水平,而且在为人类预防和治疗疾病方面也有重要意义。在全球变暖的气候背景下,统计分析了1961~2010年黄河中下游地区24节气的气温、湿度、风速等6个气象要素的变化特征,得到以下结论:黄河中下游地区随节气变换气候变化显著,大暑、小暑节气高温高湿,小寒、大寒节气寒冷干燥,清明节气寒温反复大风将至,霜降节气天气渐凉秋燥加剧等。50年内,春季型节气(平均、最高、最低)气温显著升高,冬季型节气最低气温升高显著。气压随节气变化特征与气温大致相反,夏、秋季节气有升压趋势。相对湿度与降水均呈减少趋势,以秋季型节气减小趋势最明显。春季风速最大,夏、秋季风速最小,所有节气风速均呈减小趋势,冬夏季节气日照时间呈缩短趋势。 相似文献
8.
Charith Madusanka WIDANAGE 王东晓 周峰华 Tilak P. D. GAMAGE WANG Shengan WICKRAMAGE C. H. GEEGANA GAMAGE G. R. G. 黎大宁 《南京气象学院学报》2018,10(3):324-333
以斯里兰卡南部5.936 108°N、80.574 900°E处的自动气象站(AWS)的气象时间序列观测数据为依据,对2015年12月至2016年10月大气边界层的变化进行了定量分析.结果表明,印度洋北部的季风、气温、气压、相对湿度、降水和向下短波辐射的扰动随着季风的逆转而变化.2016年5月台风Roanu经过时,气压降低、相对湿度增大、降水增强和向下短波辐射减小,其特征是温度、相对湿度、降水和风速均迅速增加,之后气温和降水下降,而气压、向下短波辐射在急剧减小之后又急剧增大.自动气象站记录了台风到达前的气象条件,并自2016年5月13日起各个参数开始响应台风变化.从2016年5月28日开始,自动气象站记录台风通过后的气象条件,此时降水和向下辐射均减少.这些信号说明应用自动气象站可以持续观测台风条件.这项研究表明,斯里兰卡南部地区的气象数据可以用来进行天气评估,并可以对南部沿海地区的海气关系现象进行分析.此外,自动气象站的现场数据可以用作模型验证和参数化. 相似文献
9.
用大理、理塘和林芝的地面自动气象站资料,对比分析3站气温、相对湿度、本站气压、瞬时风速、地面温度的日变化特征。结果表明:大理、理塘和林芝气温最低值和相对湿度最大值的出现时间分别为7时、7时左右和8时左右,气温最高值和相对湿度最小值出现的时间均在16时左右。3站气压日变化呈"双峰双谷型,"2个高峰值时段分别出现在10时左右和凌晨0~1时,2个低谷值时段分别出现在17时左右和5时左右。风速在凌晨至7时左右较低,之后至傍晚不断增大并出现极大值,日落后逐渐减小。3站地面温度7时左右出现最低值,14时左右出现最高值。从季节变化情况看,气温和地面温度出现最高值、最低值的月份及变化幅度最大的月份基本相同。地面温度增、降幅度最大的季节分别是春季、秋季。气压随季节变化幅度较气温、相对湿度小。初春风速较大,秋季风速较小,风速对相对湿度有一定影响,大理和林芝相对湿度出现最小值的月份与风速出现最大值的月份相同。各要素值基本是大理最大,林芝次之,理塘最小,这与3站的纬度、海拔高度和下垫面性质有关。 相似文献
10.
利用2011—2012年盖州市大气能见度和地面气象要素(相对湿度、风速、气温、气压)的观测资料,分析了盖州地区大气能见度月和日的变化特征及大气能见度与气象要素的相关性。结果表明:盖州市大气高能见度事件多出现在3月和10月,低能见度事件多出现在6—8月;夏季能见度最低,14时能见度最大,20时能见度比08时略小。大气能见度与相对湿度相关性最大,与风速和气温相关性次之,与气压相关性最差;当相对湿度80.0%时,能见度最低值为10.4±3.2km,大气能见度与气压、气温、相对湿度的相关系数分别为-0.52、0.51和-0.52;其中较高的气温、较大的相对湿度、较小的风速及较低的气压是盖州地区低能见度(10km)事件发生的主要气象条件。 相似文献
11.
北太平洋海气界面湍流热通量的年际变化 总被引:4,自引:1,他引:3
本文采用美国伍兹霍尔海洋研究所客观分析海气通量项目提供的1958~2006年月平均的湍流热通量及相关气象场数据, 利用EOF分析、小扰动方法、线性回归、相关分析等方法研究了北太平洋海气界面湍流热通量年际变化的时空特征、 影响因子及其与大气环流的关系。结果表明, 北太平洋湍流热通量的年际变化在冬季最为显著。我国东部海域及其向中东太平洋的延伸部分为冬季潜热通量和感热通量年际变化的关键区。冬季潜热通量的年际变化在副热带太平洋和菲律宾海域主要受风速变化影响, 在北太平洋的高纬和低纬海域尤其是赤道中太平洋主要受比湿差变化影响, 而冬季感热通量的年际变化在整个北太平洋都主要受海气温差变化影响。受大尺度环流影响, 异常低压中心的东 (西) 侧海气比湿差和海气温度差偏小 (偏大), 所以异常低压中心的东 (西) 侧潜热输送和感热输送偏弱 (偏强)。 相似文献
12.
Gerhard Kramm Hans Müller David Fowler Klaus D. Höfken Franz X. Meixner Eberhard Schaller 《Journal of Atmospheric Chemistry》1991,13(3):265-288
A modified profile method for determining the vertical deposition (or/and exhalation) fluxes of NO, NO2, ozone, and HNO3 in the atmospheric surface layer is presented. This method is based on the generally accepted micrometeorological ideas of the transfer of momentum, sensible heat and matter near the Earth's surface and the chemical reactions among these trace gases. The analysis (aerodynamic profile method) includes a detailed determination of the micrometeorological quantities (such as the friction velocity, the fluxes of sensible and latent heat, the roughness length and the zero plane displacement), and of the height-invariant fluxes of the composed chemically conservative trace gases with group concentrations c
1=[NO]+[NO2]+[HNO3], c
2=[NO2]+[O3]+3/2·[HNO3], and c
3=[NO]–[O3]–1/2·[HNO3]. The fluxes of the individual species are finally determined by the numerical solution of a system of coupled nonlinear ordinary differential equations for the concentrations of ozone and HNO3 (decoding method). The parameterization of the fluxes is based on the flux-gradient relationships in the turbulent region of the atmospheric surface layer. The model requires only the vertical profile data of wind velocity, temperature and humidity and concentrations of NO, NO2, ozone, and HNO3.The method has been applied to vertical profile data obtained at Jülich (September 1984) and collected in the BIATEX joint field experiment LOVENOX (Halvergate, U.K., September 1989). 相似文献
13.
高山草甸下垫面夏季近地层能量输送及微气象特征 总被引:8,自引:5,他引:3
利用青藏高原东坡理塘站2007年6~8月的观测资料, 分析了高原东坡草甸下垫面夏季近地层气象要素和湍流通量日变化特征, 并用涡动相关法估算地面的曳力系数。结果表明: 水平风速、 动量通量、 摩擦速度等均在下午最大, 早晨最小。二氧化碳浓度表现为早晚高、 中午低的日变化特征, 比湿的最大值出现在早晨。地表辐射、 热量平衡各分量最高值出现在中午, 最低值出现在早晨。地表反照率表现出早晚高中午低的 “U” 型分布, 日平均值为0.164。夏季地面热源强度在白天午后表现为强的热源, 在夜里表现为弱的冷、 热源交替出现。夏季近地层地气热量交换中, 感热输送作用小, 潜热输送占主要地位。 相似文献
14.
Roll vortices,which often appear when cold air outbreaks over warm ocean surfaces,are an important system for energy and substance exchange between the land surface and atmosphere.Numerical simulations were carried out in the study to simulate roll vortices in the convective boundary layer(CBL).The results indicate,that with proper atmospheric conditions,such as thermal instability in the CBL,stable stratification in the overlying layer and suitable wind shear,and a temperature jump between the two layers in a two-layer atmosphere,convective bands appear after adding initial pulses in the atmosphere.The simulated flow and temperature fields presented convective bands in the horizontal and roll vortices in the crosswind section. The structure of the roll vortices were similar to those observed in the cloud streets,as well as those from analytical solutions.Simulations also showed the influence of depth and instability strength of the CBL, as well as the stratification above the top of the CBL,on the orientation spacing and strength of the roll vortices.The fluxes caused by the convective rolls were also investigated,and should perhaps be taken into account when explaining the surface energy closure gap in the CBL. 相似文献
15.
The quadrant technique, a conditional sampling approach that allocates Reynolds stresses into four different types of events
(ejections or bursts, sweeps, inward interactions and outward interactions), is applied to stable marine atmospheric boundary-layer
data, collected in the framework of the Coupled Boundary Layer Air—Sea Transfer, Low wind component experiment at Nantucket
Island, Massachusetts, USA. The general properties of both scalar and momentum transport are analyzed under the scope of quadrant
analysis experimentally and theoretically. It is shown that the third-order Gram–Charlier series is necessary and even sufficient
in most of the cases, in describing the experimental time and flux contributions of each quadrant to the total transfer, for
both scalar and momentum transport, while the ability of the Gaussian distribution is limited to outlining the general pattern
of these quantities. Moreover, a threshold value is applied to the conditional analysis, separating the most important events
from the less significant ones and the sensitivity of the flux and especially the time fraction of each quadrant on the choice
of this value is presented and discussed. Also, a set of numerically extracted equations, completing the analytical relations,
is derived, enabling the prediction of the time and flux fractions of each quadrant, for a wide range of correlation coefficient
and threshold values. Finally, the sensitivity of the analysis to the atmospheric stability and the Reynolds averaging scales
showed that correlated and uncorrelated motions tend to balance for increasingly stable conditions and/or for large time scales. 相似文献
16.
The range of chemical, biological, and meteorological processes contributing to the net exchange of trace chemical species between the atmosphere and the underlying surface is examined, in the context of a multiple-resistance exchange model. For those chemical species known to be always depositing, the resistance model provides a means to formulate appropriate deposition velocities in a convenient manner; however, extension to other situations is not straightforward. Field data indicate that the multiple-resistance approach is appropriate for application to assess the dry deposition of ozone and sulfur dioxide, but is not as appropriate for nitrogen dioxide. Data obtained over agricultural crops suggest that canopy factors frequently dominate the overall exchange process. A trial program of dry deposition measurement based on application of parameterized deposition velocities was initiated late in 1984, and has demonstrated shortcomings in under-standing concerning several factors, most importantly the roles of surface emissions and wetness, and the scaling-up of laboratory results to describe vegetative canopies. 相似文献
17.
Processing and quality control of flux data during LITFASS-2003 总被引:1,自引:0,他引:1
Matthias Mauder Claudia Liebethal Mathias Göckede Jens-Peter Leps Frank Beyrich Thomas Foken 《Boundary-Layer Meteorology》2006,121(1):67-88
Different aspects of the quality assurance and quality control (QA/QC) of micrometeorological measurements were combined to create a comprehensive algorithm which was then applied to experimental data from LITFASS-2003 (Lindenberg Inhomogeneous Terrain—Fluxes between Atmosphere and Surface: a long term Study). Eddy-covariance measurements of the latent heat flux were the main focus of the QA/QC efforts. The results of a turbulence sensor intercomparison experiment showed deviations between the different eddy-covariance systems on the order of 15%, or less than 30 W m−2, for the latent heat flux and 5%, or less than 10 W m−2, for the sensible heat flux. In order to avoid uncertainties due to the post-processing of turbulence data, a comprehensive software package was used for the analysis of experimental data from LITFASS-2003, including all necessary procedures for corrections and quality control. An overview of the quality test results shows that for most of the days more than 80% of the available latent heat flux data are of high quality so long as there are no instrumental problems. The representativeness of a flux value for the target land-use type was analysed using a stochastic footprint model. Different methods to calculate soil heat fluxes at the surface are discussed and a sensitivity analysis is conducted to select the most robust method for LITFASS-2003. The lack of energy balance closure, which was found for LITFASS-2003, can probably be attributed to the presence of low-frequency flux contributions that cannot be resolved with an averaging time of 30 min. Though the QA/QC system has been developed for the requirements of LITFASS-2003, it can also be applied to other experiments dealing with similar objectives. 相似文献
18.
本文利用位于青藏高原东南缘的温江和大理大气边界层野外观测资料,对比分析了两站包括风温湿、辐射、湍流通量等在内的近地层微气象学特征,主要结果如下:(1)两站风速值均随着高度的增加而增大,但温江站冬季4~10 m风速在白天出现随高度减小的现象.温江站冬季以东北风为主,夏季以西北风和南风为主;大理站冬季以东南风为主,其次为西南风,夏季则以东风和东南风为主.两站近地层逆温和逆湿现象都非常显著.(2)同一季节温江站大气逆辐射和地表长波辐射大于大理站,向下短波辐射小于大理站.温江站地表长波辐射总是大于大气逆辐射,而大理站白天地表长波辐射大于大气逆辐射,晚上则相反.(3)温江站感热通量冬季大于大理站,夏季小于大理站,而潜热通量无论冬夏都要小于大理站.两站潜热通量均大于感热通量,并且大理站潜热通量月平均日变化值全天始终大于零.无论冬夏,温江站土壤热通量都要小于大理站,随着深度的增加两站土壤热通量均有位相上的延迟. 相似文献
19.
The effect of mountainous topography on moisture exchange between the “surface” and the free atmosphere 总被引:1,自引:0,他引:1
Typical numerical weather and climate prediction models apply parameterizations to describe the subgrid-scale exchange of
moisture, heat and momentum between the surface and the free atmosphere. To a large degree, the underlying assumptions are
based on empirical knowledge obtained from measurements in the atmospheric boundary layer over flat and homogeneous topography.
It is, however, still unclear what happens if the topography is complex and steep. Not only is the applicability of classical
turbulence schemes questionable in principle over such terrain, but mountains additionally induce vertical fluxes on the meso-γ
scale. Examples are thermally or mechanically driven valley winds, which are neither resolved nor parameterized by climate
models but nevertheless contribute to vertical exchange. Attempts to quantify these processes and to evaluate their impact
on climate simulations have so far been scarce. Here, results from a case study in the Riviera Valley in southern Switzerland
are presented. In previous work, measurements from the MAP-Riviera field campaign have been used to evaluate and configure
a high-resolution large-eddy simulation code (ARPS). This model is here applied with a horizontal grid spacing of 350 m to
detect and quantify the relevant exchange processes between the valley atmosphere (i.e. the ground “surface” in a coarse model)
and the free atmosphere aloft. As an example, vertical export of moisture is evaluated for three fair-weather summer days.
The simulations show that moisture exchange with the free atmosphere is indeed no longer governed by turbulent motions alone.
Other mechanisms become important, such as mass export due to topographic narrowing or the interaction of thermally driven
cross-valley circulations. Under certain atmospheric conditions, these topographical-related mechanisms exceed the “classical”
turbulent contributions a coarse model would see by several times. The study shows that conventional subgrid-scale parameterizations
can indeed be far off from reality if applied over complex topography, and that large-eddy simulations could provide a helpful
tool for their improvement. 相似文献
20.
基于1970—2015年青藏高原地区78个站点的观测资料,应用物理方法计算了高原中东部地区的感热通量。利用小波分析、相关性分析等研究了高原中东部感热通量的时空特征和影响因子。结果表明,高原年平均和春夏季节,感热通量周期为3~4 a,而秋冬季节为2~3 a;感热通量的变化趋势为,1970—1980年和2001—2015年感热通量呈增加趋势,而1981—2000年呈减小趋势;高原年平均和各季节的最强感热加热中心均位于高原南坡E区(除冬季外),最弱加热区域位于高原西北部A区(夏季除外);高原春秋季节感热通量的空间分布均匀,冬夏季节有明显的梯度分布且梯度相反,夏季呈现自东到西的梯度;春季、夏季及秋季,高原感热通量和降水呈负相关;高原10 m风速的极值中心随季节北上南撤变化与地气温差的强弱变化共同决定了感热通量的季节变化。 相似文献