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1.
基于Rayleigh-Gans散射原理构造一个S波段双线偏振雷达模拟器。模拟器考虑了云冰、雪、雨和雹4种水凝物,以水凝物的混合比和数浓度以及水凝物粒子的轴比、相对介电常数、下落倾角为输入量,计算得到水平/垂直偏振反射率因子、差分反射率、比差分相位等偏振量。通过二维理想飑线模拟的试验结果表明,模拟器合理地再现了二维理想飑线系统成熟期的主要偏振特征:雹的反射率较高,差分反射率较低(又称Zdr洞);对流云区的Zdr柱;层云区的反射率和比差分相位的0℃层亮带特征;雨滴反射率与差分反射率因子的“雨线”统计特征。利用该模拟器建立了模式变量和偏振雷达观测的联系,有助于未来将偏振雷达观测资料应用于模式预报效果评估及对流尺度资料同化等方面的研究和应用。   相似文献   
2.
一次冷涡过程降水的微物理机制分析   总被引:6,自引:0,他引:6       下载免费PDF全文
该文分析了一次冷涡天气过程中云微物理量的分布特征、降水粒子的增长机制及云下雨滴的蒸发效应。主要结果为:云系由低层暖性Sc云和冷性主体As云组成。As云底高2 km,云顶高大于5 km,云中存在比较大的过冷水区,–11.2 ℃时的过冷水含量0.21 g·m-3,但过冷水的含量分布极不均匀,大于0.05 g·m-3的过冷水区连续分布的宽度87%小于2.4 km,不利于云中冰晶的连续凇附增长;同时云下雨滴的蒸发效应大,直径小于1.0 mm的雨滴难以落到地面,因此本次过程只产生弱的降水。  相似文献   
3.
Stratiform Cloud—Inversion Characterization During the Arctic Melt Season   总被引:1,自引:1,他引:0  
Data collected during July and August from the Arctic Ocean Experiment 2001 illustrated a common occurrence of specific-humidity (q) inversions, where moisture increases with height, coinciding with temperature inversions in the central Arctic boundary layer and lower troposphere. Low-level stratiform clouds and their relationship to temperature inversions are examined using radiosonde data and data from a suite of remote sensing instrumentation. Two low-level cloud regimes are identified: the canonical case of stratiform clouds, where the cloud tops are capped by the temperature inversion base (CCI—Clouds Capped by Inversion) and clouds where the cloud tops were found well inside the inversion (CII—Clouds Inside Inversion). The latter case was found to occur more than twice as frequently than the former. The characteristic of the temperature inversion is shown to have an influence on the cloud regime that was supported. Statistical analyses of the cloud regimes using remote sensing instruments suggest that CCI cases tend to be dominated by single-phase liquid cloud droplets; radiative cooling at the cloud top limits the vertical extent of such clouds to the inversion base height. The CII cases, on the other hand, display characteristics that can be divided into two situations—(1) clouds that only slightly penetrate the temperature inversion and exhibit a microphysical signal similar to CCI cases, or (2) clouds that extend higher into the inversion and show evidence of a mixed-phase cloud structure. An important interplay between the mixed-phase structure and an increased potential for turbulent mixing across the inversion base appears to support the lifetime of CII cases existing within the inversion layer.  相似文献   
4.
本文对一个中纬中尺度对流复合体层状降水区的微物理结构,结合雷达、卫星和其他飞机观测资料进行了分析.结果表明,MCC层状区内某些部位盛行冰晶聚合体,它们分布在相当厚的过冷气层内(0.5—-14℃或更冷).冰晶聚并过程足层状区内降水质点增长的主要机制.它起源于较高较冷的气层,在冰晶聚合体下降途中聚并效率渐趋增强,在0℃层附近形成一大的冰晶聚合带. 层状区中云滴液态含水量一般低于0.3g·m~(-3).0℃层以下降水质点数浓度较低,平均为0.8L~(-1)(2D-P资料)和2.3L~(-1)(2D-C资料),相应的平均体积中值直径分别为1.0和0.6mm.在0—-10c气层内,冰质点平均数浓度为27L~(-1)(2D-P资料)和133L~(-1)(2D-C),远人于0℃层以下的雨滴数浓度,相应的平均体积中值直径为0.8和0.4mm.冰质点数浓度随高度向上增加,在飞机垂直探测的顶部(6600m高度)观测到最大数浓度52L~(-1)(2D-P资料)和289L~(-1)(2D-C资料).冰质点大小则相反,是随高度下降而增大的.在0℃层附近冰晶聚合体较大较多,冰质点中15%以上是聚合体,2D-P探头观测的冰质点平均体积中值直径达1.8mm. 滴谱分析表明,负指数律分布能较好地拟合所有观测的降水质点大小谱分布.对水滴,斜率参数λ平均为17(±3.6)cm~(-1),相对变差不超过20%,在云模式研究中可以近似地假定λ是常数.然而,对冰质点样本,λ值可相差3倍以上,小能当作常数处理.至于截距参数N_0,不论是水滴还是冰晶样本,都是变量,其值可有2—3个数量级之差.但是,N_0与λ之间数值上相关很好,据此可以将降水质点谱简化为单参数分布.  相似文献   
5.
利用耦合Morrison 2-mon(MOR)双参数微物理方案的中尺度天气研究与预报模式(WRF)中的单气柱模式,对热带暖池国际云试验(TWP-ICE)期间的个例进行数值模拟。通过与观测资料和云分辨率模式的模拟结果进行对比,检验MOR方案对热带对流云系的微物理特征的模拟能力。模拟结果显示:MOR方案能够较好地模拟出热带云系中液相和冰相水凝物的垂直分布以及随时间的演变特征。地表向下长波辐射和大气顶向外长波辐射的量级和时间演变趋势同观测也非常接近。对与冰晶和雪有关的云微物理特征分析之后发现:季风活跃期,冰晶主要的源汇项有凝华增长过程、沉降过程、冰晶向雪的自动转化以及冰晶被雪碰并的过程。由于冰晶主体位于温度低于―20℃的高空,因而它对雨水的形成主要是间接贡献。同时期雪的主要源汇项中,凝华增长和沉降过程占据着主导地位。雪的凝华过程消耗了大量的水汽,可能抑制了冰晶的增长。另外雪的融化过程非常强盛,是产生降水的重要因子。季风抑制期,冰相的微物理过程变得相对简单且整体削弱,以凝华升华和沉降过程为主。凝华凝冻核的数浓度(Ndep)的气溶胶敏感性试验表明:季风抑制期,高空的冰晶云的宏观和微观性质对凝华凝冻核数浓度的响应情况呈现显著的线性特征。冰晶的含量随着Ndep的增加而增加,反之降低。该时期微物理过程主要同冰晶有关,水分的分配较为简单,Ndep增加时,高空冰云中小冰晶粒子数目增多且云顶升高,使得大气顶部向外长波辐射(OLR)值减小,反之冰云主体中冰晶有效半径增加,高空的冰云更加透明,云顶更低,对 OLR值增加起促进作用。而季风活跃期,微物理过程复杂,冰晶云的宏微观特征对Ndep的响应表现出一定的不规律特征。  相似文献   
6.
常飞  杨德保  王式功  尚可政  田韬 《高原气象》2012,31(5):1294-1301
采用非静力中尺度模式WRF,对2010年4月中旬鄂北襄樊出现的一次罕见春季降雪过程的天气系统和降雪云微物理量的三维分布特征进行了模拟分析。结果表明,该模式较好地模拟了降雪中心和主要的固体降水形态。进一步分析表明,西北干冷空气南下造成了环境降温和长江中游槽线切变区激发对流的发展,在对流层中层直接形成固态降水物质,低层高湿和充足的水汽输送是这次降雪过程形成的重要因素。  相似文献   
7.
Aerosols affect precipitation by modifying cloud properties such as cloud droplet number concentration (CDNC). Aerosol effects on CDNC depend on aerosol properties such as number concentration, size spectrum, and chemical composition. This study focuses on the effects of aerosol chemical composition on CDNC and, thereby, precipitation in a mesoscale cloud ensemble (MCE) driven by deep convective clouds. The MCE was observed during the 1997 department of energy's Atmospheric Radiation Measurement (ARM) summer experiment. Double-moment microphysics with explicit nucleation parameterization, able to take into account those three properties of aerosols, is used to investigate the effects of aerosol chemical composition on CDNC and precipitation. The effects of aerosol chemical compositions are investigated for both soluble and insoluble substances in aerosol particles. The effects of soluble substances are examined by varying mass fractions of two representative soluble components of aerosols in the continental air mass: sulfate and organics. The increase in organics with decreasing sulfate lowers critical supersaturation (Sc) and leads to higher CDNC. Higher CDNC results in smaller autoconversion of cloud liquid to rain. This provides more abundant cloud liquid as a source of evaporative cooling, leading to more intense downdrafts, low-level convergence, and updrafts. The resultant stronger updrafts produce more condensation and thus precipitation, as compared to the case of 100% sulfate aerosols. The conventional assumption of sulfate aerosol as a surrogate for the whole aerosol mass can be inapplicable for the case with the strong sources of organics. The less precipitation is simulated when an insoluble substance replaces organics as compared to when it replaces sulfate. When the effects of organics on the surface tension of droplet and solution term in the Köhler curve are deactivated by the insoluble substance, Sc is raised more than when the effects of sulfate on the solution term are deactivated by the insoluble substance. This leads to lower CDNC and, thus, larger autoconversion of cloud liquid to rain, providing less abundant cloud liquid as a source of evaporative cooling. The resultant less evaporative cooling produces less intense downdrafts, weaker low-level convergence, updrafts, condensation and, thereby, less precipitation in the case where organics is replaced by the insoluble substance than in the case where sulfate is replaced by the insoluble substance. The variation of precipitation caused by the change in the mass fraction between the soluble and insoluble substances is larger than that caused by the change in the mass fraction between the soluble substances.  相似文献   
8.
One of the purposes of the Fourth Cloud Modeling Workshop was to compare different microphysical treatments. In this paper, the results of a widely used bulk treatment and five versions of a detailed microphysical model are presented. Sensitivity analysis was made to investigate the effect of bulk parametrization, ice initiation technique, CCN concentration and collision efficiency of rimed ice crystal–drop collision. The results show that: (i) The mixing ratios of different species of hydrometeors calculated by bulk and one of the detailed models show some similarity. However, the processes of hail/graupel formation are different in the bulk and the detailed models. (ii) Using different ice initiation in the detailed models' different processes became important in the hail and graupel formation. (iii) In the case of higher CCN concentration, the mixing ratio of liquid water, hail and graupel were more sensitive to the value of collision efficiency of rimed ice crystal–drop collision. (iv) The Bergeron–Findeisen process does not work in the updraft core of a convective cloud. The vapor content was always over water saturation; moreover, the supersaturation gradually increased after the appearance of precipitation ice particles.  相似文献   
9.
利用WRF v3.2.1模式,采用其中5种云微物理参数化方案对2007—2011年的东亚夏季风气候进行了模拟研究,结果显示:5种方案均能较好地模拟出我国东部地区夏季降水的基本分布,但各方案对降水中心强度及其分布的模拟仍然存在明显的差异,总体来看,WDM6方案模拟的东亚夏季降水强度明显比其他4种方案大,而Morrison方案对降水的模拟总体效果好于其他4种方案。从云微物理角度来看,5种云微物理参数化方案均能比较合理地描述云水、雨水及冰相粒子的空间分布状态。其中,WSM3方案计算的云水、雨水质量混合比明显比其它方案大,WDM6方案计算的云水质量混合比则较小,而Morrison方案计算的雨水质量混合比较小,再者该方案冷云中霰粒子浓度偏小,因而Morrison方案在粤闽两省的夏季日降水量模拟比其他方案小,从而与TRMM观测结果更为接近。采用5种云微物理参数化方案均能较好地模拟出春、夏季西太平洋副高、雨带和大气水凝物在东亚地区的季节进退过程。5种方案模拟的雨水粒子浓度分布和中纬度雨带在南北进退过程中的位置较为吻合,两者均跟随西太平洋副高北进、南退。对于中低纬度存在的大降水中心来说,其位置少动,并且与该地区存在的的冰晶、雪晶粒子的高值中心具有较好的对应关系,说明在中低纬度地区,与热带对流相伴随的较高层次的冰相粒子数的浓度是决定降水强弱的关键因素。  相似文献   
10.
雷暴中雷电活动与WRF模式微物理和动力模拟量的对比研究   总被引:2,自引:0,他引:2  
黄蕾  周筠珺  谷娟  柳臣中  向钢 《大气科学》2015,39(6):1095-1111
利用WRF模式模拟发生在成都地区的典型雷暴天气过程,得到相应雷电活动过程中微物理和动力输出场,将其与雷电监测定位网所探测到的地闪资料进行对比分析,在电荷分离的微物理学基础上讨论了WRF(Weather Research and Forecasting)模式输出的不同微物理及动力因子与地闪的相关性。结果表明:-10℃到-20℃之间的电荷分离区域内,冰晶粒子与霰粒子质量混合比最大值与地闪频数随时间变化趋势基本保持一致。在雷电活动中后期,霰、冰晶及雪晶粒子最大值位置与地闪密度大值中心位置对应性较好,空间上均能指示地闪发生区域。最大上升速度与风暴相对螺旋度可以指示地闪频数变化,风暴相对螺旋度空间上可指示地闪密度大值中心。模拟结果表明WRF模式微物理及动力输出场可以指示地闪活动的发生时间和位置,表现了日益成熟WRF模式进行雷电数值预报与研究的潜能。  相似文献   
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