共查询到20条相似文献,搜索用时 31 毫秒
1.
利用WRF模式对2015年热带气旋(TC)"苏迪罗"发展演变过程开展高分辨率数值模拟,模式较好地再现了"苏迪罗"路径、强度、高低空环流、云系演变和降水分布等。应用三维地面降水诊断方程对"苏迪罗"海上活动时段的降水物理过程模拟诊断指出,QWVA(三维水汽通量辐合辐散率)对TC环流区域内降水相关的水汽相关过程变率(QWV)变化起主导作用,但环流区域内QWVL(垂直积分负的水汽局地变化率)和QWVE(海面蒸发率)亦有重要贡献(尤其是后者),尽管QWVE贡献明显小于QWVA,但由环流区域外辐合来的水汽也可能主要源于区域外不同海域的海面蒸发,海面蒸发的总体贡献应更大。海上活动时段云相关过程变率(QCM)特征及变化与QWV相比更为复杂,环流区域内的QCLL(负的液相水凝物局地变率)基本维持正值(液相水凝物持续减少),其消耗主要用于向冰相水凝物转化和地面降水,以及向区域外的三维通量辐散,6日04时之前,环流区域内QCIL(负的冰相水凝物局地变率)的变化主要归因于微物理转化及地面降水,而6日04时之后,来自环流区域外的通量辐合也有一定作用;降水强度逐渐增强时期,水凝物含量的短暂增长(负值QCLL和QCIL)主要归因于明显增强和垂直扩展的上升运动,伴随上升运动增强,水凝物含量明显增加,霰融化(Pgmlt)和雨滴碰并云滴(Pracw)是造成雨滴含量增加的主要微物理过程。"苏迪罗"环流内区域和时间平均的降水效率高达96%,其中QWVA是主要贡献项,而QWVE和QWVL亦有重要贡献,这与TC所处海洋下垫面有关,海上活动时段,充足的降水源和较小的降水汇共同造成此时段的高降水效率,雨滴生成主要微物理来源中,Pgmlt约占Pracw的72%,体现出海上活动时段TC环流内旺盛的深对流活动特征。 相似文献
2.
“碧利斯”(2006)暴雨过程降水强度和降水效率分析 总被引:1,自引:1,他引:0
利用2006年第4号强热带风暴“碧利斯”登陆过程的高分辨率数值模拟资料,结合三维地面降水诊断方程和降水效率公式,研究了“碧利斯”登陆后引发的局地暴雨过程,重点分析了此次局地暴雨过程的降水强度和降水效率及其与宏微观物理因子的联系。结果表明,降水强度越强,降水效率越高,但两者并非一一对应的线性关系,随着降水强度增大,降水效率增高的趋势逐渐变缓;伴随暴雨系统快速发展,降水强度和降水效率均显著增强,而主要降水源/汇项的时间变化要复杂得多;暴雨发生前时段与发生时段降水物理过程存在显著差异,发生前,较明显的水汽辐合显著加湿局地大气,并通过微物理转化支持降水云系发展,液相水凝物辐合对降水云系快速发展贡献明显,固相水凝物辐合贡献不显著,较强的“云滴与雨滴碰并(Pracw)”微物理过程同液相水凝物明显辐合可能有直接关系,“霰融化造成雨滴增长(Pgmlt)”仅为Pracw的27%,发生时段,进一步明显加强的水汽辐合依旧是主要降水来源,而汇项发生了明显变化,同时,微物理转化过程与发生前比更活跃,尤其是Pracw和Pgmlt,其中,Pgmlt增强更明显,其值接近Pracw的50%。 相似文献
3.
Our previously described absorption model for the scavenging of trace gases by individual cloud and rain drops was applied to an ensemble of drops of given size distribution as found in typical atmospheric rainfalls. This study allowed: (1) determination of the redistribution which a pollution plume suffers as rain falls through it, and (2) determination of the amount of pollutant contained in. the fallen rain. For the present application it was assumed that the pollution plume consisted of SO2, only, and that its concentration varied vertically as a Gaussian distribution centered 200 m above the ground. Rain of various intensities and corresponding drop size distributions was allowed to pass through this pollution layer. The results of our study show that the average height and concentration of the plume decrease in proportion to the total amount of rain which had passed through the pollution layer. The fractional plume washout rate (in % per mm of rain) was found to be inversely proportional to the SO2 gas concentration, the plume height, and the plume thickness. By including the effects of oxidation inside the falling raindrops, it was noted that the removal of SO2 became enhanced by a factor of up to 10 times. For significant oxidation the rate with which SO2 was washed out was found to be inversely proportional to the rainfall rate. For the case of light drizzle (2 mm h-1) and large oxidation rate constants (100 s-1), as much as 40% of the sulfur load could be removed by 1 mm of rain. For the case of a heavier rainfall (25 mm h-1) composed of correspondingly larger drops, the washout rate varied between 2 and 10$ mm-1 over a wide range of oxidation rates. 相似文献
4.
The short-term tropical surface rainfall processes in rainfall regions (raining stratiform and convective regions) and rainfall-free regions (non-raining stratiform and clear-sky regions) are investigated based on the hourly data from a two-dimensional cloud-resolving model simulation. The model is integrated over a 21-day period with imposed zonally uniform vertical velocity, zonal wind, horizontal temperature and vapor advection, and sea surface temperature from the Tropical Ocean Global Atmosphere Coupled Ocean Atmosphere Response Experiment (TOGA COARE). The analysis of the model domain-mean surface rainfall budget reveals that surface rainfall is mainly associated with water vapor convergence and local atmospheric drying. The mean surface rainfall lags the mean water vapor convergence by 3?h. The convective?Cstratiform rainfall separation analysis shows that convective rainfall is associated with water vapor convergence, whereas stratiform rainfall is related to the local atmospheric drying and hydrometeor loss/convergence. The transport of water vapor from rainfall-free regions to rainfall regions creates the main water vapor source for rainfall while it balances local atmospheric drying in rainfall-free regions. Surface evaporation plays a minor role in short-term surface rainfall processes. 相似文献
5.
Water vapor, cloud, and surface rainfall budgets associated with the landfall of Typhoon
Krosa on 6--8 October 2007 are analyzed based on a two-dimensional cloud-resolving model simulation.
The model is integrated with imposed zonally-uniform vertical velocity, zonal wind, horizontal
temperature, and vapor advection from NCEP/Global Data Assimilation System (GDAS) data. The simulation
data that are validated with observations are examined to study physical causes associated with
surface rainfall processes during the landfall. The time- and domain-mean analysis shows that when
Krosa approached the eastern coast of China on 6 October, the water vapor convergence over land caused
a local atmospheric moistening and a net condensation that further produced surface rainfall and an
increase of cloud hydrometeor concentration. Meanwhile, latent heating was balanced by advective
cooling and a local atmospheric warming. One day later, the enhancement of net condensation led to
an increase of surface rainfall and a local atmospheric drying, while the water vapor convergence
weakened as a result of the landfall-induced deprivation of water vapor flux. At the same time,
the latent heating is mainly compensated the advective cooling. Further weakening of vapor convergence
on 8 October enhanced the local atmospheric drying while the net condensation and associated surface
rainfall was maintained. The latent heating is balanced by advective cooling and a local atmospheric
cooling. 相似文献
6.
The measurements of the photosynthetic photon flux density (Qp) and other solar components have been in Beijing for 2-year period. The Qp, broadband solar radiation (Rs) and the PAR fraction (Qp / Rs) showed similar seasonal features that peaked in value during the Summer and reached their lowest value during the Winter. The PAR fraction ranged from 1.68 E M J− 1 (Winter) to 1.98 E M J− 1 (Summer) with an annual mean value of 1.83 E M J− 1. The analysis of the hourly values also revealed a diurnal pattern, with higher values of Qp and Rs being observed around noon. The PAR fraction increased from 1.78 to 1.89 μE J− 1 (hourly values), as the sky conditions changed from clear to cloudy. The monthly mean hourly PAR fraction also revealed a diurnal variation, however, with lower values being observed around noon during most months. In November, the diurnal variations showed an opposite feature in comparison with other months. This is mainly attributed to the diurnal variations in the water vapor concentration.Two models were developed to estimate Qp from Rs. The models consisted of atmospheric parameters that were found to cause substantial changes to the PAR fraction, such as sky clearness, brightness and path length. The estimated Qp obtained via different equations was much closer to the observed values, with relative errors below 20% in Beijing. The Qp and Rs data collected at three stations with featuring different climate types from within Beijing were used for verifying the transferability of the models. The correlation coefficients between the measured and estimated Qp values decreased at these stations, and the relative error increased. This indicates that the estimation models need to be modified accordingly for the local climatic conditions. 相似文献
7.
Young-Joo Kwon Hayan Shin Hyunju Ban Yang-Won Lee Kyung-Ae Park Jaeil Cho No-Wook Park Sungwook Hong 《Asia-Pacific Journal of Atmospheric Sciences》2017,53(3):385-392
Heavy summer rainfall is a primary natural disaster affecting lives and properties in the Korean Peninsula. This study presents a satellite-based rainfall rate retrieval algorithm for the South Korea combining polarization-corrected temperature (PCT) and scattering index (SI) data from the 36.5 and 89.0 GHz channels of the Advanced microwave Scanning Radiometer 2 (AMSR-2) onboard the Global Change Observation Mission (GCOM)-W1 satellite. The coefficients for the algorithm were obtained from spatial and temporal collocation data from the AMSR-2 and groundbased automatic weather station rain gauges from 1 July - 30 August during the years, 2012-2015. There were time delays of about 25 minutes between the AMSR-2 observations and the ground raingauge measurements. A new linearly-combined rainfall retrieval algorithm focused on heavy rain for the PCT and SI was validated using ground-based rainfall observations for the South Korea from 1 July - 30 August, 2016. The validation presented PCT and SI methods showed slightly improved results for rainfall > 5 mm h-1 compared to the current ASMR-2 level 2 data. The best bias and root mean square error (RMSE) for the PCT method at AMSR-2 36.5 GHz were 2.09 mm h-1 and 7.29 mm h-1, respectively, while the current official AMSR-2 rainfall rates show a larger bias and RMSE (4.80 mm h-1 and 9.35 mm h-1, respectively). This study provides a scatteringbased over-land rainfall retrieval algorithm for South Korea affected by stationary front rain and typhoons with the advantages of the previous PCT and SI methods to be applied to a variety of spaceborne passive microwave radiometers. 相似文献
8.
J. H. McCaughey 《Boundary-Layer Meteorology》1985,31(1):89-101
The energy storage terms for a mature mixed forest at Petawawa, Ontario are reported for 38 days in the summer of 1982 when the forest was in full leaf. Hourly, daily and daytime values of the storage terms are documented. The biomass storage term, Q
v
, should be calculated from measurement of biomass temperature change. For hourly periods, the storage terms can be of significant size with respect to net radiation, Q
*. This is especially the case at night, in the early morning after sunrise, and near sunset. The importance of the storage terms is still pronounced when daytime totals are considered — the ratio of the total storage (Q
s
) to Q
* varied from 1 to 15% for the whole sample, but is typically between 5 and 10%. For daily totals when the canopy is dry and the net radiation high, Q
s
is typically 2 to 3 % of Q
*. However, it can be up to 10% of Q
* under particular conditions (overcast days, or during or immediately following rainfall). 相似文献
9.
The surface rainfall processes associated with the torrential rainfall event over Hubei,China,during July 2007 were investigated using a two-dimensional cloud-resolving model.The model integrated the large-scale vertical velocity and zonal wind data from National Centers for Environmental Prediction(NCEP)/Global Data Assimilation System(GDAS) for 5 days.The time and model domain mean surface rain rate was used to identify the onset,mature,and decay periods of rainfall.During the onset period,the descending motion data imposed in the lower troposphere led to a large contribution of stratiform rainfall to the model domain mean surface rainfall.The local atmospheric drying and transport of rain from convective regions mainly contributes to the stratiform rainfall.During the mature periods,the ascending motion data integrated into the model was so strong that water vapor convergence was the dominant process for both convective and stratiform rainfall.Both convective and stratiform rainfalls made important contributions to the model domain mean surface rainfall.During the decay period,descending motion data input into the model prevailed,making stratiform rainfall dominant.Stratiform rainfall was mainly caused by the water vapor convergence over raining stratiform regions. 相似文献
10.
北京一次大暴雨的水汽收支和微物理过程数值分析 总被引:1,自引:1,他引:0
利用NCEP1°×1°再分析资料和常规气象观测资料,使用WRF模式对2012年7月21日发生在北京地区的一次特大暴雨天气过程进行数值模拟。在模拟结果的基础上,分析了此次暴雨过程的形势演变和水汽条件,并分别计算了暴雨发生过程中北京全市范围内的水汽输送、水汽收支、大气可降水量和空中各相态水物质的量值大小、空间分布情况及其相互转化关系。结果发现:这次降水主要受高空槽、低涡和地面切变线的影响。有东南、西南两条水汽输送通道,计算区域上空水汽收支变化与地面雨强的演变对应很好。中低层持续而强烈的水汽净输入,为暴雨的发生发展提供了很好的水汽条件。北京各站点大气可降水量普遍超过历史极值,反映了降水的极端性。降水发展不同阶段,云内微物理过程存在差异,降水量初期以暖雨为主,降雨量不大,之后冷雨过程增强,降水量迅速增大。 相似文献
11.
In this study,the effects of key ice microphysical processes on the pre-summer heavy rainfall over southern China during 3-8 June 2008 were investigated.A series of two-dimensional sensitivity cloud-resolving model simulations were forced with zonally uniform vertical velocity,zonal wind,horizontal temperature,and water vapor advection data from the National Centers for Environmental Prediction(NCEP)/Global Data Assimilation System(GDAS).The effects of key ice microphysical processes on the responses of rainfall to large-scale forcing were analyzed by comparing two sensitivity experiments with a control experiment.In one sensitivity experiment,ice crystal radius,associated with depositional growth of snow from cloud ice,was reduced from 100 μm in the control experiment to 50 μm,and in the other sensitivity experiment the efficiency of the growth of graupel from the accretion of snow was reduced to 50% from 100% in the control experiment.The results show that the domain-mean rainfall responses to these ice microphysical processes are stronger during the decay phase than during the onset and mature phases.During the decay phase,the increased mean rain rate resulting from the decrease in ice crystal radius is associated with the enhanced mean local atmospheric drying,the increased mean local hydrometeor loss,and the suppressed mean water vapor divergence.The increased mean rain rate caused by the reduction in accretion efficiency is related to the reduced mean water vapor divergence and the enhanced mean local hydrometeor loss. 相似文献
12.
利用2005~2011年的太阳辐射观测资料分析三江平原地区光合有效辐射(Qp)的时间变化特征及其与总辐射(Rs)比值(Qp/Rs)的变化规律,结果表明,Qp与Rs具有相同的季节变化特征;Qp日累计值的变化范围为60.47~0.11 mol m-2 d-1,年均值为23.76 mol m-2 d-1。Qp/Rs的变化范围为1.52~2.07 mol MJ-1,年均值为1.91 mol MJ-1。Qp/Rs和Qp季节变化一致,两者都是夏季最大,春秋次之,冬季最小。通过利用2011年的Qp观测数据、大气质量数与晴空指数的相互关系,建立了适合于估量三江地区Qp的经验方程,估算值与观测值的相对误差在5.7%以内。 相似文献
13.
Howard A. Bridgman 《Journal of Atmospheric Chemistry》1991,12(4):299-317
The pH and the concentrations of sulfate, nitrate, ammonia, and calcium in rainwater were measured for two periods of a single midwest rainstorm which occurred over a mesometeorological network in central Illinois on 24–25 July 1979. Regression analysis was used to compare ion concentrations with rainfall amount, and ion balance was used to compare cation and anion concentrations at individual sites. Only the ions SO4
2- and NO3
- show any significant relationship to rainfall amount, decreasing as rainwater amounts increase (r=–0.57 and –0.60, respectively). During the first period of the rainstorm, a sequential sampler measurements allowed the calculation of detailed temporal variations in SO4
2-, pH, and rain rate. SO4
2- decreased, and pH increased as the rate increased and the opposite temporal pattern occurred as the rain decreased at the end of the period. Reasons for these variations are discussed.Research done while a visiting scientist at the Illinois State Water Survey, Champaign, Illinois, U.S.A. 相似文献
14.
Statistical characteristics of environmental parameters for warm season short-duration heavy rainfall over central and eastern China 总被引:15,自引:2,他引:13 
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下载免费PDF全文 Water vapor content,instability,and convergence conditions are the key to short-duration heavy rainfall forecasting.It is necessary to understand the large-scale atmospheric environment characteristics of shortduration heavy rainfall by investigating the distribution of physical parameters for different hourly rainfall intensities.The observed hourly rainfall data in China and the NCEP final analysis(FNL)data during 1May and 30 September from 2002 to 2009 are used.NCEP FNL data are 6-hourly,resulting in sample sizes of 1573370,355346,and 11401 for three categories of hourly rainfall(P)of no precipitation(P<0.1 mm h-1),ordinary precipitation(0.1≤P<20 mm h-1),and short-duration heavy rainfall(P≥20.0 mm h-1),respectively,by adopting a temporal matching method.The results show that the total precipitable water(PWAT)is the best parameter indicating the hourly rainfall intensity.A PWAT of 28 mm is necessary for any short-duration heavy rainfall.The possibility of short-duration heavy rainfall occurrence increases with PWAT,and a PWAT of 59 mm is nearly sufficient.The specific humidity is a better indicator than relative humidity.Both 700-and 850-hPa relative humidity greater than 80%could be used to determine whether or not it is going to rain,but could not be used to estimate the rainfall intensity.Temperature and potential pseudo-equivalent temperature are also reasonable indicators of short-duration heavy rainfall.Among the atmospheric instability parameters,the best lifted index(BLI)performs best on the shortduration rainfall discrimination;the next best is the K index(KI).The three rainfall categories are not well recognized by total totals(TT)or the temperature difference between 850 and 500 hPa(DT85).Threequarters of short-duration heavy rainfall occurred with BLI less than-0.9,while no short-duration heavy rainfall occurred when BLI was greater than 2.6.The minimum threshold of KI was 28.1 for short-duration heavy rainfall.The importance of dynamic conditions was well demonstrated by the 925-and 850-hPa divergence.The representativeness of 925-hPa divergence is stronger than that of 850 hPa.Three-quarters of short-duration heavy rainfall occurred under a negative divergence environment.However,both the best convective potential energy(BCAPE)and vertical wind shear were unable to discriminate the hourly rainfall intensities. 相似文献
15.
Convective cells with low echo-top heights are commonly observed in the humid environments typical of the Baiu season around Okinawa Island. Representative convective cells with low echotop heights include convective cells in the stratiform and convective rain zones accompanying a precipitation system, as well as isolated convective cells. Raindrop size distribution (DSD) parameters (the median volume diameter D 0 and the normalized intercept parameter N w) for the three types of convective cells were clarified by estimation from polarimetric radar measurements. The estimated D 0 values in the mature stages of a convective cell in a stratiform rain zone were approximately 1.2 mm, with radar reflectivity (Z h) of 40–45 dBZ, and the estimated N w ranged from 32000–100000 mm?1 m?3. In contrast, for a convective cell in a convective rain zone, and also for an isolated convective cell, the estimated D 0 was approximately 2 mm with Z h of 40–45 dBZ, and the estimated N w values were in the range 1000–10000 mm?1 m?3. The variations in the estimated D 0 and N w within the lifetimes of the convective cells suggest the following microphysics: for the convective cell in the stratiform rain zone, a high number-concentration of small raindrops contributed to the increase in Z h, whereas for the convective cell in the convective rain zone and the isolated convective cell, large raindrops contributed to the increase in Z h, and raindrop coalescence processes were predominant at altitudes below 2 km ASL. This study characterized precipitation particle distributions for three convective cells, with low echo-top heights, representing the humid environment of Okinawa Island during the Baiu period. In particular, the precipitation particle distribution for the convective cell in the stratiform rain zone, which differs markedly from those of the convective cell in the convective rain zone and the isolated convective cell, was characterized. 相似文献
16.
Evapotranspiration is a major component of both the energy and water balances of wetland tundra environments during the thaw season. Reliable estimates of evapotranspiration are required in the analysis of climatological and hydrological processes occurring within a wetland and in interfacing the surface climate with atmospheric processes. Where direct measurements are unavailable, models designed to accurately predict evapotranspiration for a particular wetland are used.This paper evaluates the performance, sensitivity and limitations of three physically-based, one-dimensional models in the simulation of evaporation from a wetland sedge tundra in the Hudson Bay Lowland near Churchill, Manitoba. The surface of the study site consists of near-saturated peat soil with a sparse sedge canopy and a constantly varying coverage of standing water. Measured evaporation used the Bowen ratio energy balance approach, to which the model results were compared. The comparisons were conducted with hourly and daily simulations.The three models are the Penman-Monteith model, the Shuttleworth-Wallace sparse canopy model and a modified Penman-Monteith model which is weighted for surface area of the evaporation sources.Results from the study suggest that the weighted Penman-Monteith model has the highest potential for use as a predictive tool. In all three cases, the importance of accurately measuring the surface area of each evaporation source is recognized. The difficulty in determining a representative surface resistance for each source and the associated problems in modelling without it are discussed.
List of Symbols
Models BREB Bowen ratio energy balance - P-M Penman-Monteith combination - S-W Shuttleworth-Wallace combination - W-P-M Weighted Penman-Monteith combination Other AE Available energy-all surfaces - AE c Available energy-canopy (S-W, W-P-M) - AE s Available energy-bare soil (S-W, W-P-M) - AE w Available energy-open water (W-P-M) - C p Specific heat of air - D Vapor pressure deficit - DAI Dead area index - FAI Foliage area index - LAI Leaf area index - Q * Net radiation - Q e Latent heat flux-total - Q ec Latent heat flux-canopy (S-W, W-P-M) - Q es Latent heat flux-bare soil (S-W, W-P-M) - Q ew Latent heat flux-open water (W-P-M) - Q g ground heat flux - Q h Sensible heat flux - S Proportion of area in bare soil - W Proportion of surface in open water - r a Aerodynamic resistance (P-M, W-P-M) - r c Canopy resistance - r s Generalized optimized surface resistance - r st Stomatal resistance - r c a Bulk boundary layer resistance (S-W) - r s a Aerodynamic resistance below mean canopy level (S-W) - r s s Soil surface resistance (S-W, W-P-M) Greek Bowen ratio - Psychrometer constant - Air density - Slope of saturation vapour pressure vs temperature curve 相似文献17.
四川暴雨过程动力因子指示意义与预报意义研究 总被引:5,自引:1,他引:4
本文利用2010年8月18~19日四川盆地西部地区一次引发了泥石流等次生灾害的暴雨天气过程的数值模拟资料及0.5°×0.5°分辨率、每6 h一次的GFS(Global Forecast Model)预报资料,结合集合动力因子预报系统中的广义对流涡度矢量垂直分量、质量散度、垂直螺旋度、质量垂直螺旋度、水汽垂直螺旋度、热力垂直螺旋度、湿热力平流参数、密度散度垂直通量、散度垂直通量、热力散度垂直通量、水汽散度通量、广义 Q 矢量散度等12个动力因子成员对此次暴雨过程进行诊断分析和预报研究,结果显示:(1)集合动力因子预报系统中的动力因子对此次降水落区诊断效果良好;(2)各动力因子区域均值随时间的变化曲线都能表现出降水区域均值随时间变化曲线双峰形态,其中,广义 Q 矢量散度、水汽垂直螺旋度、热力垂直螺旋度、质量垂直螺旋度、垂直螺旋度与降水的相关系数较大(达0.9以上),对此次降水的诊断效果较好;(3)动力因子对此次强降水过程的发展演变具有一定的预报能力。 相似文献
18.
利用欧洲中期天气预报中心(European Centre for Medium-Range Weather Forecasts, ECMWF)再分析资料,基于大气扰动分解技术,对2012年7月华北东部两次副高边缘大暴雨事件进行扰动分析。结果表明:边界层及对流层低层扰动辐合中心与副高边缘大暴雨中心有较好地对应关系;扰动锋区和扰动比湿大值区(4 g·kg-1)叠加的区域与大暴雨落区相对应,与切变线类暴雨不同,副高边缘暴雨中心并不是出现在冷暖空气対峙扰动(0 ℃线)的位置,而是发生在扰动锋区内的暖区一侧(扰动温度0 ℃以南);两次过程均存在自南向北的水汽通道,且水汽在输送过程中不断得到抬升,大暴雨落区对应的扰动水汽通量散度中心分别达到-6.8×10-8g·cm-2·hPa-1·s-1和-11.9×10-8g·cm-2·hPa-1·s-1,为大暴雨的形成提供了较好地水汽条件。 相似文献
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利用第三次青藏高原大气科学试验的多种雷达、雨滴谱仪以及MODIS卫星观测资料、常规气象站地面和高空观测资料,针对2014年7月14日发生在青藏高原中部那曲地区的一次降水过程,研究了降水的时空变化特征,触发不同阶段降水的天气尺度和中尺度环流系统以及相关的云降水物理特征。从降水演变特征看,这次降水过程包括3个阶段,即发生在下午的强降水阶段和夜间的两个弱降水阶段。从影响系统看,下午的降水主要由天气尺度的高原低涡发展引起,此时那曲位于低涡中心前部的中尺度辐合线上;发生在晚上的降水主要与高原低涡前部的暖湿东南气流爬越地形有关,东南气流为产生降水提供了有利的水汽、大气不稳定和浅薄的动力抬升条件。从云降水微物理特征看,高原低涡降水初期,低涡前部的上升运动深厚,对流发展明显,而后期的对流性减弱。东南气流爬坡引起的地形降水表现出层状云降水的特征,高原低涡降水的雨滴谱分布较宽(0.3~4.9 mm),而夜间降水过程的雨滴谱分布较窄(0.3~2.1 mm)。 相似文献
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MM5模式对区域气候模拟的性能试验 总被引:9,自引:9,他引:9
利用1998年6月NCEP资料和6月2日00:00地表资料及美国NCAR/PENN州的MM5对1998年6月我国南方降雨过程进行了气候模拟的性能试验,模拟结果表明,MM5基本上可模拟出局地大气环流和区域尺度上的强对流过程造成的雨区,降雨强度和强降水中心位置,但模拟的雨量与实际值相差较大,模拟值再现了我国夏季降水异常的空间分布特点,模式可向区域气候模式发展,但该模式模拟的1998年6月副高强度比其实际值的强度更强,故导致更多的水汽进入降雨区,造成过多的降雨。 相似文献