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以云和地球辐射能量系统(CERES)数据集为准,量化了中国地球系统模式对地表入射短波辐射和大气逆辐射时空变化的模拟性能,明确了多模式间模拟结果存在不确定性的区域。结果表明:中国模式均能模拟出北半球地表入射短波辐射和大气逆辐射“夏高冬低”的季节变化特征。陆地上,中国模式对两个辐射分量月均值的模拟结果与CERES相当,在海洋上低于CERES结果。中国模式能模拟出地表入射短波辐射下降、大气逆辐射上升的年际变化趋势。对于2001—2014年均值,中国模式模拟的地表入射短波辐射在海洋和陆地上较CERES分别偏低3.3和3.0 W·m-2,模拟的大气逆辐射在海洋上与CERES结果相当,在陆地上较CERES低1.3 W·m-2。除南北纬30°附近之外,中国模式在其他纬度均低估地表入射短波辐射,以热带和北极最为明显。模式对大气逆辐射的模拟偏差呈纬向波动特征,模拟误差大值出现在高大山脉处。中国模式模拟地表入射短波辐射不确定性极大的区域分布在热带雨林和南极洲沿海,模拟大气逆辐射不确定性极大的区域分布在格林兰岛、青藏高原、安第斯山脉和南极洲沿海。 相似文献
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将NCAR CCM3辐射传输方案CRM(Column Radiation Model)引入到P-σRCM9区域气候模式中,并对两组辐射传输方案下P-σRCM9区域气候模式模拟的东亚冬、夏季气候特征差异进行对比分析,发现采用CRM辐射传输方案能够改善P-σRCM9区域气候模式对中国区域冬、夏季地面温度的模拟,且在夏季的改善比冬季更明显,还改善了P-σ RCM9区域气候模式对对流层高层(200~100 hPa)短波辐射加热率和长波辐射加热率的计算,然后改进了模式对200~300 hPa垂直平均经向温度梯度的模拟,进而使得模拟的冬、夏季东亚高空西风急流比采用KQ辐射传输方案的模拟结果更加接近NCEP/NCAR再分析资料.同时还发现,采用CRM辐射传输方案后,P-σRCM9气候模式模拟的中国地区冬、夏季的降水率在强度和分布形势上均比采用KQ辐射传输方案的模拟结果更接近观测,CRM辐射传输方案能够较明显地提高P-σRCM9气候模式对中国地区冬、夏季降水的模拟能力. 相似文献
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结合MM5模式和三维微波辐射传输模式, 对2003年7月9日宜昌地区一次典型的中尺度降水中心的对流性降水云微波辐射特性进行研究。结果表明:MM5模式模拟的降水量和落区与实况一致,模拟的水凝物廓线也与TMI反演值接近,85.5 GHz通道辐射亮温与TMI实测情况相近。85.5 GHz通道亮温与地面雨强相关性很弱, 受云中云冰和雪花的散射降温作用显著, 由于其他粒子的综合作用以及斜角观测造成的位置偏移, 霰粒子对该通道亮温散射作用不明显。19.35 GHz通道亮温随雨强增加先升温后降温; 与霰粒子含量表现出明显的负相关关系。37.0 GHz通道亮温随雨强的增加而降温, 雨强大于20 mm/h后达到饱和, 主要受雨水降温作用影响。倾斜观测比天顶垂直观测产生更低的亮温低值中心, 且频率越高, 低值中心的偏移越严重。 相似文献
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利用中国气象科学研究院的三维对流云模式模拟了 1 998年发生在我国武汉地区的特大暴雨过程中的对流云。在模拟云的成熟阶段 ,模拟结果和地面最大降水量实况及热带测雨卫星TRMM (TropicalRainfallMeasureMission)的降水雷达PR(Pre cipitationRadar)的零度层高度和降水粒子达到的高度较接近。将该云物理模式的输出结果输入到Liu的三维辐射模式的输入场 ,模拟了以TRMM的微波成像仪TMI(TRMMMicrowaveImager)的扫描角为入射角 ,频率为 85 5GHz和 37 0GHz的星载微波辐射仪接受到的亮温 ,模拟的结果表明云中各微物理量的分布对上行微波辐射的影响较大。 相似文献
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文章简单回顾了以前国内常用的太阳辐射资源的计算方法,评论了各自存在的主要问题。其中最重要的是我国大地势以及其他自然条件影响下的基础辐射问题。在以前的研究中虽也注意到了这一问题,但解决得既不理想,也不彻底。关键是这些解决方法依靠的仅仅是辐射实测站点的天文辐射数据。由于测站有限,直接影响到对不同经度、纬度、地势、气候等自然条件下的基础数据的推算。该文利用SMARTS模式依据每个气象站的平均气压、绝对湿度、能见度等数据推算出符合当地环境条件的晴天辐射数据,作为基础辐射数据,进而达到考虑各地真实大气条件来计算晴天辐射的目的。 相似文献
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Precipitation responses to radiative processes of water- and ice-clouds: an equilibrium cloud-resolving modeling study 
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下载免费PDF全文 云辐射过程对制约天气与气候很重要。本文通过分析二维云分辨模式敏感性试验模拟平衡态平均资料研究降水对水云及冰云辐射过程的响应。模式给定的垂直速度为零。存在冰云辐射过程时去除水云辐射过程,以及去除冰云辐射过程会加强大气长波辐射冷却和降低空气温度及饱和混合比。饱和混合比的减少导致水汽凝结增加及其相关的潜热释放的增加,从而增加降雨。去除水云辐射过程通过减少长波辐射冷却增加对流层上部局地大气变暖。而增强的变暖通过霰的融化增强而增加降水源与降水。 相似文献
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辐射收支对降水数值预报的影响 总被引:6,自引:0,他引:6
将辐射参数化子程序与中国科学院大气物理研究所降水有限区域模式结合 ,进行数值模拟 ,所得结果合理。辐射子程序能模拟并提供各高度及地面的辐射收支、温度、湿度日变化。对于大尺度降水过程 ,辐射使夜间降水量显著增加 ,是夜间降水多的原因之一。而辐射使白天降水有小量增加。 相似文献
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本文基于气候系统模式CESM4.0长期积分试验,分析评估了工业革命前(1850年)及当前(2000年)两种辐射强迫作用(分别为太阳活动和温室气体)对中国北方干旱半干旱区降水的影响。结果表明,模拟结果与观测之间尽管存在一定的偏差,但仍能再现降水气候态的空间分布以及季节变化特征;两种辐射强迫下的降水长期变化均无明显趋势,但二者的差异却呈现出70~100年的准周期振荡;由人类活动引起的当前辐射强迫作用对降水的多年际变率幅度有一定影响,造成极端强降水事件出现的概率增多,而由太阳活动引起的辐射强迫作用主要对降水多年代际周期具有一定的调制作用。进一步分析表明,两种辐射强迫下中国北方干旱半干旱区降水年多年代际变率的主要模态基本一致,但人类活动引起的辐射强迫作用会影响降水多年代际变率与热带海温异常的相互作用的强度,从而改变降水多年代际变率的幅度。 相似文献
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实际云层在水平与垂直方向都是不均匀的,但为了便于计算,绝大多数关于云辐射的理论模式,都采用平面平行模式.到目前为止,解决三维空间辐射传输问题的方法仍然不多.一般采用统计方法和二流近似法,但这两种方法分别在计算机时和计算精度上受到限制.作者在三维多模传输理论与辐射传输计算程序软件包--DISORT的基础上,发展出计算三维孤立云块多次散射过程的一套程序(MM-DISORT),并由此初步探讨了云块的三维立体结构对云的短波吸收的影响. 相似文献
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气候模式中云的次网格结构对全球辐射影响的研究 总被引:3,自引:0,他引:3
利用一种用于大尺度天气、气候模式的随机云产生器(SCG)和独立气柱近似(ICA)辐射算法,研究了次网格云的水平结构以及垂直重叠结构对全球辐射场的影响.比较了水平非均匀云(IHCLD)和水平均匀云(HCLD)的辐射场差异以及云的最大.随机重叠(MRO)和一般重叠(GenO)的辐射场差异.结果显示,与HCLD相比,IHCLD一方面可增加地面净短波辐射通量,纬向平均最大值(约1W/m~2)和次大值(约0.6 W/m~2)分别位于高纬度低云密集地区和对流旺盛的热带地区;另一方面可增加大气顶的净长波辐射通量,纬向平均最大值(0.3 W/m~2)出现在热带地区.不同的重叠结构对短波和长波辐射收支也有很大的影响.MRO和GenO的短波辐射通量差异在热带辐合带最大.达到30-40W/m~2,在高纬度低云带的纬向平均也可达到5W/m~2左右;长波辐射通量差异具有相似的地区分布,但量值相对较小.不同重叠结构可以造成大气上下层的辐射加热率差异,影响大气热力层结.云的水平和垂直结构对有云区域辐射收支的影响将改变大气热力、动力状况以及水汽条件,从而影响模拟的气候系统的演变.文中采用单向云-辐射计算,排除了与气候系统其他过程复杂的相互作用,从而使其结果具有一定的普适性,可为不同大尺度模式进行次网格云辐射参数化提供参考. 相似文献
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Cloud Microphysical Budget Associated with Torrential Rainfall During the Landfall of Severe Tropical Storm Bilis (2006) 下载免费PDF全文
下载免费PDF全文 WANG Donghai LIU Ying ZHU Ping YIN Jinfang LI Xiaofan TAO Wei-Kuo 《Acta Meteorologica Sinica》2013,27(2):263-272
Effects of vertical wind shear, radiation, and ice clouds on cloud microphysical budget associated with torrential rainfall during landfall of severe tropical storm Bilis (2006) are investigated by using a series of analysis of two-day grid-scale sensitivity experiment data. When upper-tropospheric upward motions and lower-tropospheric downward motions occur on 15 July 2006, the removal of vertical wind shear and ice clouds increases rainfall contributions from the rainfall type (CM) associated with positive net condensation and hydrometeor loss/convergence, whereas the exclusion of cloud radiative effects and cloud-radiation interaction reduces rainfall contribution from CM. The elimination of vertical wind shear and cloud-radiation interaction increases rainfall contribution from the rainfall type (Cm) associated with positive net condensation and hydrometeor gain/divergence, but the removal of cloud radiative effects and ice clouds decreases rainfall contribution from Cm. The enhancements in rainfall contribution from the rainfall type (cM) associated with negative net condensation and hydrometeor loss/convergence are caused by the exclusion of cloud radiative effects, cloud-radiation interaction and ice clouds, whereas the reduction in rainfall contribution from cM results from the removal of vertical wind shear. When upward motions appear throughout the troposphere on 16 July, the exclusion of all these effects increases rainfall contribution from CM, but generally decreases rainfall contributions from Cm and cM. 相似文献
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辐射对夏季风开始的影响——数值模拟 总被引:1,自引:1,他引:1
应用ECMWF有限区域模式,设计了两个数值实验以估计辐射效应对于夏季风开始的影响。对照实验包括所有的物理过程。另一个实验在模式中除去长波和短波辐射过程。比较这两个实验的结果表明:在南亚大陆上空,辐射过程增强了西南季风及其相应的垂直环流。尤其是对青藏高原上空的高原季风,辐射效应是根本性的。 辐射过程增强了大陆上空的“湿”过程。较多的潜热释放反馈导致季风环流的加强。 相似文献
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Convective processes affect large-scale environments through cloud-radiation interaction, cloud micro- physical processes, and surface rainfall processes. Over the last three decades, cloud-resolving models (CRMs) have demonstrated to be capable of simulating convective-radiative responses to an imposed large-scale forcing. The CRM-produced cloud and radiative properties have been utilized to study the convective- related processes and their ensemble effects on large-scale circulations. This review the recent progress on the understanding of convective processes with the use of CRM simulations, including precipitation processes; cloud microphysical and radiative processes; dynamical processes; precipitation efficiency; diurnal variations of tropical oceanic convection; local-scale atmosphere-ocean coupling processes; and tropical convective-radiative equilibrium states. Two different ongoing applications of CRMs to general circulation models (GCMs) are discussed: replacing convection and cloud schemes for studying the interaction between cloud systems and large-scale circulation, and improving the schemes for climate simulations. 相似文献
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A new efficient parameterization scheme for solar short-wave radiative heating, as a component of the net radiative effects in the atmosphere, is tested in a three-dimensional mesoscale model. This model is designed with moist convective processes in mind, so that the radiative parameterization (solar plus thermal infrared) are interactive with the cloud field. Previous work by the authors with only an infrared scheme has demonstrated that cloud-radiation interactions are characterized by strong cloud-top cooling, leading to upper cloud-layer destabilization. The effects of including solar heating are to modulate the strength of the strong infrared cooling, thereby leading to weaker interactions between clouds, radiation, and mesoscale fields. The present study shows that even on the mesoscale and for relatively short time-spans, radiative processes in the presence of clouds are not negligible.As a further step, a simple fractional cloud cover parameterization is introduced and the model response is compared with results omitting this parameterization. 相似文献
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Summary A set of the inhomogeneity factor for high-level clouds derived from the ISCCP D1 dataset averaged over a five-year period
has been incorporated in the UCLA atmospheric GCM to investigate the effect of cirrus cloud inhomogeneity on climate simulation.
The inclusion of this inhomogeneous factor improves the global mean planetary albedo by about 4% simulated from the model.
It also produces changes in solar fluxes and OLRs associated with changes in cloud fields, revealing that the cloud inhomogeneity
not only affects cloud albedo directly, but also modifies cloud and radiation fields. The corresponding difference in the
geographic distribution of precipitation is as large as 7 mm day−1. Using the climatology cloud inhomogeneity factor also produces a warmer troposphere related to changes in the cloudiness
and the corresponding radiative heating, which, to some extent, corrects the cold bias in the UCLA AGCM. The region around
14 km, however, is cooler associated with increase in the reflected solar flux that leads to a warmer region above. An interactive
parameterization for mean effective ice crystal size based on ice water content and temperature has also been developed and
incorporated in the UCLA AGCM. The inclusion of the new parameterization produces substantial differences in the zonal mean
temperature and the geographic distribution of precipitation, radiative fluxes, and cloud cover with respect to the control
run. The vertical distribution of ice crystal size appears to be an important factor controlling the radiative heating rate
and the consequence of circulation patterns, and hence must be included in the cloud-radiation parameterization in climate
models to account for realistic cloud processes in the atmosphere. 相似文献
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通过时空匹配主动遥感产品(2B-CLDCLASS-LIDAR)的云类型参数与被动遥感产品(Clouds and the Earth's Radiant Energy System-Single Scanner Footprint: CERES-SSF)的云宏微观物理特性和大气层顶处辐射通量参数(2007/01~2010/12),本文在全球尺度上统计分析了不同类型单层云以及高云重叠的双层云的云特性和大气层顶云辐射强迫。尽管主动和被动卫星遥感产品相互独立,但被动遥感反演的云光学厚度和云相态等参数能够合理反映不同类型云之间的差异。不同类型单层云表现出的云特性差异能进一步影响大气层顶的辐射能量收支。本文通过对比不同类型单层云的Clouds and the Earth's Radiant Energy System(CERES)视场样本数量随短波和长波云辐射强迫的分布,发现它们的高值区形状、位置和面积存在差异,反映了其各自独特的辐射特性。层积云的CERES视场样本数量密集区类似椭球结构,而其它云类型则趋于指数曲线结构。当进一步考虑高云重叠的影响时,统计结果表明:重叠的高云比高云单层状态有更蔽光和更厚的云体;高云重叠的底层云类型则比其单层状态有更透光和更薄的云体;高云重叠的双层云(除了高云重叠积云)对地气系统的净冷却效应要弱于其低层云类型单层状态。本文研究结果旨在加深理解云辐射反馈机制,并为改进模式中云重叠参数化方案提供一定观测依据。 相似文献
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硫酸盐气溶胶辐射强迫的数值模拟研究 总被引:5,自引:0,他引:5
利用IAP/LASG GOALS 4.0海气耦合模式,"显式"考虑了硫酸盐气溶胶的直接作用,并且引入德国马普气象研究所的三维浓度分布资料,模拟计算了硫酸盐气溶胶的辐射强迫.主要结果为:全球气溶胶年平均的辐射强迫为-0.29 W m-2,在IPCC TAR给定的范围内,空间分布上具有明显的地域性,几个大值地区分别为东亚、西欧和北美,它们的中心值均超过-1.5 W m-2,南美、澳大利亚以及非洲南部的辐射强迫介于-0.2~-0.4 W m-2之间,而海洋和偏远的大陆地区,则基本上不受人为硫酸盐气溶胶的影响;计算的东亚地区硫酸盐气溶胶的平均辐射强迫为-0.75 W m-2,约为全球平均的2.5倍,为北半球平均的1.6倍.文中还讨论了全球硫酸盐气溶胶对温室气体辐射强迫的减缓作用. 相似文献
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DING Yihui SHI Xueli LIU Yiming LIU Yan LI Qingquan QIAN Yongfu MIAO Manqian ZHAI Guoqing GAO Kun 《大气科学进展》2006,23(3)
A modified version of the NCAR/RegCM2 has been developed at the National Climate Center (NCC), China Meteorological Administration, through a series of sensitivity experiments and multi-year simulations and hindcasts, with a special emphasis on the adequate choice of physical parameterization schemes suitable for the East Asian monsoon climate. This regional climate model is nested with the NCC/IAP (Institute of Atmospheric Physics) T63 coupled GCM to make an experimental seasonal prediction for China and East Asia. The four-year (2001 to 2004) prediction results are encouraging. This paper is the first part of a two-part paper, and it mainly describes the sensitivity study of the physical process parameterization represented in the model. The systematic errors produced by the different physical parameterization schemes such as the land surface processes, convective precipitation, cloud-radiation transfer process, boundary layer process and large-scale terrain features have been identified based on multi-year and extreme flooding event simulations. A number of comparative experiments has shown that the mass flux scheme (MFS) and Betts-Miller scheme (BM) for convective precipitation, the LPMI (land surface process model I) and LPMII (land surface process model Ⅱ) for the land surface process, the CCM3 radiation transfer scheme for cloud-radiation transfer processes, the TKE (turbulent kinetic energy) scheme for the boundary layer processes and the topography treatment schemes for the Tibetan Plateau are suitable for simulations and prediction of the East Asia monsoon climate in rainy seasons. Based on the above sensitivity study, a modified version of the RegCM2 (RegCM_NCC) has been set up for climate simulations and seasonal predictions. 相似文献