共查询到20条相似文献,搜索用时 140 毫秒
1.
2008年初江西中部冰雪风暴过程的数值模拟 总被引:2,自引:2,他引:0
利用中国科学院大气物理研究所研制开发的三维对流云模式,对2008年2月1日江西省中部的一次冰雪风暴过程进行了数值模拟。模拟方案分方案A和方案B,方案A云中水物质包括水汽、云水、雨水、冰晶、雪、霰共6类,方案B云中水物质包括水汽、云水、雨水、冰晶、雪共5类。对比分析两种方案的模拟结果表明,模式微物理过程中不包括霰粒项模拟结果更接近实际情况,冰晶在雪产生的初始阶段起着主要作用,但以后时段风暴内的冰晶效应使风暴内过饱和水汽在雪片上的凝华增长过程中起着主要作用。 相似文献
2.
河北一次层状云系降水的微物理机制数值模拟与分析 总被引:1,自引:0,他引:1
利用一维层状云模式,详细分析了2009年5月1日中国中东部地区一次层状云系的微物理结构和降水过程。结果表明:此次降水为层状云系降水,云系垂直结构符合顾震潮三层概念模型和“播种云-供给云”机制,其中第一层(上层:4.7-7.0 km)存在冰雪晶,雪主要通过冰晶自动转化和凝华增长。第二层(中层:2.6-4.6 km)有冰晶、雪、霰、云水、雨滴,此层贝吉龙过程作用明显。第三层(下层:1.3-2.5 km)主要粒子为云滴、雨滴、从上层融化的雪和霰,霰的融化对于雨滴的形成贡献最大。云体发展成熟时,各层之间存在一定的播种-供应关系,如第一层向第二层顶部播撒雪和冰晶,第二层向第三层顶部播撒霰和雪。 相似文献
3.
北京冬季降水粒子谱及其下落速度的分布特征 总被引:2,自引:0,他引:2
为了深入探讨北京冬季云降水的微物理特征,提高雷达反演冬季固态降水的精度和冬季降水的预报水平,利用PARSIVEL(Particle Size and Velocity)降水粒子谱仪所观测的冬季降水粒子谱,结合地面显微镜粒子图像和云雷达数据,对比分析了北京海坨山地区冬季过冷雨滴、霰粒、雪花、混合态降水的粒子谱和下落速度特征,得到主要结论如下:(1)霰粒降水过程的云顶最高,整层的含水量最大,低层的退偏振比(LDR)最小,粒子更接近于球形;降雪过程的云顶最低,云中含水量最少,低层的退偏振比较大;混合态降水过程的雷达回波强度和高度特征介于两者之间,但低层的退偏振比最大;(2)在云中上升或下沉气流及湍流的影响下,过冷雨滴、霰粒和雪的下落速度均对称分布于各自理论下落末速度曲线的两侧。因此可根据粒子浓度相对于其直径和速度分布的中轴线位置,判断出该段降水过程中的主要粒子形态;(3)冬季雪花、霰粒和混合态降水粒子下落速度分布的散度较雨滴更大,其原因是由于冷云降水过程的粒子形态复杂,且固态粒子下落过程中更容易受破碎、聚并和凇附等微物理过程影响;(4)在4种降水类型中,雪的平均直径和离散度最大,雨滴最小;混合态降水粒子的总数浓度最大,雨滴的总数浓度最低,并且4种降水类型的粒子数浓度、平均直径和离散度均随降水强度的增大而增大。 相似文献
4.
W. S. Lin C.-H. Sui C. Bueh A. Wang S. Fan C. Wu S. Fong J. Li J. Meng 《Meteorology and Atmospheric Physics》2007,95(3-4):195-204
Summary A moderate snowfall event in North China is simulated using the high-resolution mesoscale model MM5. A fourfold-nest experiment,
with a minimum horizontal grid size of 2 km, is run. In order to study the cloud microphysics processes associated with the
snowfall, two experiments were conducted in two inner domains, one using the Goddard scheme (Goddard experiment), and the
other using the Reisner scheme (Reisner experiment). The analysis focused on the comparison of the cloud microphysics processes
which occurred in the experiments.
It is shown that there is no implicit precipitation of cumulus parameterization in the domain of grid scale 18 km. The snowfall
distribution patterns in the experiments are slightly different, but the microphysical characteristics and processes may have
considerable differences between the two experiments: (1) The water substances in the cloud have cloud water, cloud ice and
snow, but no rainwater and graupel in the Goddard experiment. However, the water substances in the cloud have cloud ice, snow,
and graupel, but no cloud water and rainwater in the Reisner experiment. (2) The cloud ice mixing ratios in the Goddard experiment
are larger than those in the Reisner experiment. (3) In the Goddard experiment, the dominant cloud microphysical processes
include the growth of cloud water by the condensation of supersaturated vapor, the depositional growth of cloud ice, the initiation
of cloud ice, the accretion of cloud ice by snow, the accretion of cloud water by snow, the deposition growth of snow and
the Bergeron process of cloud ice. In the Reisner experiment, the dominant cloud microphysical processes include the depositional
growth of cloud ice, the conversion of cloud ice to snow, the deposition of snow, and the deposition growth of graupel. (4)
There is only snowfall in the Goddard experiment. Meanwhile, there is ice fall, snow fall, and graupel in the Reisner experiment.
But the ice fall and graupel in the Reisner experiment is very slight and can be ignored. 相似文献
5.
Data collected using the micro rain radar(MRR) situated in Jinan city, eastern China, were used to explore the altitudinal and temporal evolution of rainfall microphysical characteristics, and to analyze the bright band(BB) characteristics and hydrometeor classification. Specifically, a low-intensity and stable stratiform precipitation event that occurred from 0000 to0550 UTC 15 February 2015 and featured a BB was studied. During this event, the rainfall intensity was less than 2 mm h-1 at a height of 300 m, which was above the radar site level, so the errors caused by the vertical air motion could be ignored.The freezing height from the radiosonde matched well with the top of the BB observed by the MRR. It was also found that the number of 0.5–1 mm diameter drops showed no noticeable variation below the BB. The maximum fall velocity and the maximum gradient fall velocity(GFV) of the raindrops appeared at the bottom of the BB. Meanwhile, a method that uses the GFV and reflectivity to identify the altitude and the thickness of the BB was established, with which the MRR can provide a reliable and real-time estimation of the 0?C isotherm. The droplet fall velocity was used to classify the types of snow crystals above the BB. In the first 20 min of the selected precipitation event, graupel prevailed above the BB; and at an altitude of2000 m, graupel also dominated in the first 250 min. After 150 min, the existence of graupel and dendritic crystals with water droplets above the BB was inferred. 相似文献
6.
Yoo-Jun KIM So-Ra IN Hae-Min KIM Jin-Hwa LEE Kyu Rang KIM Seungbum KIM Byung-Gon KIM 《大气科学进展》2021,38(3):413-429
This study investigates the characteristics of cold clouds and snowfall in both the Yeongdong coastal and mountainous regions under different meteorological conditions based on the integration of numerical modeling and three-hourly rawinsonde observations with snow crystal photographs for a snowfall event that occurred on 29?30 January 2016.We found that rimed particles predominantly observed turned into dendrite particles in the latter period of the episode when the 850 hPa temperature decreased at the coastal site,whereas the snow crystal habits at the mountainous site were largely needle or rimed needle.Rawinsonde soundings showed a well-defined,two-layered cloud structure along with distinctive wind-directional shear,and an inversion in the equivalent potential temperature above the low-level cloud layer.The first experiment with a decrease in lower-layer temperature showed that the low-level cloud thickness was reduced to less than 1.5 km,and the accumulated precipitation was decreased by 87%compared with the control experiment.The difference in precipitation amount between the single-layered experiment and control experiment(two-layered)was not so significant to attribute it to the effect of the seeder?feeder mechanism.The precipitation in the last experiment by weakening winddirectional shear was increased by 1.4 times greater than the control experiment specifically at the coastal site,with graupel particles accounting for the highest proportion(~62%).The current results would improve snowfall forecasts in complicated geographical environments such as Yeongdong in terms of snow crystal habit as well as snowfall amount in both time and space domains. 相似文献
7.
基于2009年5月1日积层混合云降水2架飞机观测数据分析,使用中尺度模式WRFV3对此次过程积云区和层云区的微物理特征和转化过程进行数值模拟比较研究。飞机观测数据分析表明,此次积层混合云中的层云区和积云区冰粒子形状和形成过程有明显差别,层云区的粒子形状组成比较复杂,包含针状、柱状和辐枝状等,而积云区主要以辐枝状粒子为主,聚并、凇附过程明显。数值模式能较好地模拟出此次积层混合云降水过程的基本特征,包括回波分布、飞行路径上降水粒子的数浓度和液态水含量等。数值模拟结果表明,云水相对丰富、上升气流强的层云区凇附过程较强,产生的雪在低层融化为雨水,为后期高层形成的雪和霰提供丰富的液态水,能发展成对流较强的积云区,存在播种—供给机制。在积云区,水成物的比例从大到小依次为雪(51.9%)、霰(31.0%)和雨水(16.0%);雪的主要源项包括淞附增长(56.8%)和凝华增长(40.1%),霰的主要源项包括凇附增长(46.6%)、雨水碰并雪成霰(42.6%)和凝华增长(16.1%),雨水的主要源项是霰(77.6%)和雪(22.4%)的融化。而相对云水较少、上升气流较弱的层云区将保持层云的状态,层云区水成物的比例从大到小依次为雪(90.4%)、雨水(6.1%)、冰晶(3.5%);高层冰晶和雪通过凝华过程增长,雪在零度层下融化为弱的降水。 相似文献
8.
Summary Seven different microphysical sensitivity experiments were designed with an objective to evaluate their respective impacts
in modulating hurricane intensity forecasts using mesoscale model MM5. Microphysical processes such as melting of graupel,
snow and cloud ice hydrometeors, suppression of evaporation of falling rain, the intercept parameter and fall speed of snow
and graupel hydrometeors are modified in the existing NASA Goddard Space Flight Center (GSFC) microphysical parameterization
scheme. We studied the impacts of cloud microphysical processes by means of track, intensity, precipitation, propagation speed,
kinematic and thermodynamic vertical structural characteristics of hurricane inner core. These results suggest that the set
of experiments where (a) melting of snow, graupel and cloud ice were suppressed (b) melting of snow and graupel were suppressed
and (c) where the evaporation of rain water was suppressed all produced most intense storms. The major findings of this study
are the interconversion processes such as melting and evaporation among hydrometeors and associated feedback mechanism are
significantly modulate the intensity of the hurricane. In particular an experiment where the melting of graupel, snow and
cloud ice hydrometeors was eliminated from the model parameterization scheme produced the most explosively intensified storm.
In the experiment where rain water evaporation was eliminated from the model, it produced a stronger storm as compared to
the control run but it was not as strong as the storms produced from absence of melting processes. The impact on intensity
due to variations made in intercept parameters of the hydrometeors (i.e., snow and graupel) were not that evident compared
to other experiments. The weakest storm was noted in the experiment where the fall speeds of the snow hydrometeors were increased
two fold. This study has isolated some of the factors that contributed to a stronger hurricane and concludes with a motivation
that the findings from this study will help in further improvement in the design of sophisticated explicit microphysical parameterization
for the mesoscale non-hydrostatic model for realistic hurricane intensity forecasts. 相似文献
9.
Wenshi Lin Jinping Meng C.-H. Sui Weiguang Meng Jiangnan Li 《Meteorology and Atmospheric Physics》2009,104(1-2):1-11
We performed a modeling study of the cloud processes in a heavy snowfall event occurring in North China on 20–22 December 2004. The nonhydrostatic Mesoscale Model (MM5) was used to carry out experiments with the Reisner-2 explicit microphysical parameterizations in four nested domains to test the sensitivity of simulated heavy snowfall to different snow intercept parameters. Results show that while the different intercept parameters do not significantly affect the accumulated snowfall amounts at the surface in either total amount or location, some microphysical characteristics of the modeled heavy snowfall event are impacted. The budget of cloud microphysics is analyzed to determine the dominant cloud processes. In the control experiment (CTL) with the snow intercept (N os) specified as a function of temperature, the primary simulated hydrometeor is snow, and its mixing ratio is an order of magnitude larger than that of the other cloud species. Relative to CTL, the experiment with a fixed intercept (CON3E6) produced lower snow mixing ratios, more cloud water and graupel mixing ratios. Among the two experiments, while snowfall is slightly smaller in CON3E6, other processes like the rate of graupel fall, condensation and evaporation of cloud water, deposition and sublimation of graupel are all larger in CON3E6 than in CTL. Among CTL, CON3E6, and two more experiments (CON2E7: with a smaller fixed intercept; and NOSQS: N os a function of snow mass mixing ratio), the budget shows that CON3E6 produces the smallest deposition and sublimation of snow, the largest deposition of cloud ice, and the largest conversion from cloud ice to snow. 相似文献
10.
利用WRF模式中三种云微物理参数化方案(Lin、Eta和WSM6)对青藏高原一次强降水过程进行模拟试验,将模拟降水结果与实测资料进行对比,以评估不同云微物理参数化方案对该区域降水过程的模拟性能。结果表明:三种方案均能够模拟出此次降水天气过程的发生,但在主要降水区域和降水强度两方面仍与实测资料存在偏差;在水凝物方面,三种方案对冰粒子的模拟较接近,Lin和WSM6方案模拟的雪粒子差异较大,但霰粒子无明显差异。进一步对比分析了Lin和WSM6方案模拟的云微物理转化过程,结果表明:这两种方案都表现出了霰向雨水转化的特点。在Lin方案中,通过水汽向霰粒子凝华、霰碰并水汽凝华生成的雪粒子以及霰碰并云水这三种过程生成的霰粒子最终融化为雨水。而在WSM6方案中,一方面水汽凝结成云水,云水被雪和霰粒子碰并收集转化为霰,之后霰融化为雨水;另一方面水汽凝华为冰粒子,一部分冰转化为雪,雪直接融化为雨水或转化为霰融化为雨水,另一部分冰转化为霰,霰融化为雨水。 相似文献
11.
梅雨锋暴雨中云物理过程的观测和数值模拟 总被引:7,自引:0,他引:7
Cloud micro-physical structures in a precipitation system associated with the Meiyu front are observedusing the balloon-borne Precipitation Particle Image Sensor at Baoshan observatory station, Shanghaiduring June and July 1999. The vertical distributions of various cloud particle size, number density, andmass density are retrieved from the observations. Analyses of observations show that ice-phase particles(ice crystals, graupel, snowflakes, and frozen drops) often exist in the cloud of torrential rain associatedwith the Meiyu front. Among the various particles, ice crystals and graupel are the most numerous, butgraupel and snow have the highest mass density. Ice-phase particles coexist with liquid water dropletsnear the 0℃ level. The graupel is similarly distributed with height as the ice crystals. Raindrops belowthe 0℃ level are mainly from melted grauple, snowflakes and frozen drops. They may further grow largerby coalescence with smaller ones as they fall from the cloud base. Numerical simulations using the non-hydrostatic meso-scale model MM5 with the Reisner graupel explicit moisture scheme confirm the mainobservational results. Rain water at the lower level is mainly generated from the melting of snow andgraupel falling from the upper level where snow and graupel are generated and grown from collection withcloud and rain water. Thus the mixed-phase cloud process, in which ice phase coexists and interacts withliquid phase (cloud and rain drops), plays the most important role in the formation and development ofheavy convective rainfall in the Meiyu frontal system. 相似文献
12.
X 波段双极化雷达对云中水凝物粒子的相态识别 总被引:7,自引:1,他引:6
人工影响天气研究需对云中降水粒子的相态和分布结构进行准确识别,以便提高人工影响天气作业效率.中国科学院大气物理研究所的车载X波段双极化雷达可提供与云中降水粒子大小、形状、相态等特征密切相关的4个极化参数:反射率因子、差分反射率、差分相移率、水平和垂直极化相关系数.利用这4个极化参数加上环境温度作为5个输入参量,建立了降水粒子相态模糊逻辑识别算法,识别的降水粒子有10种:毛毛雨、雨、湿霰、干霰、小雹、大雹、雨加雹、湿雪、干雪、冰晶.利用此雷达的实际观测资料,并与地面和飞机空中实测资料对照,对我国南、北方地区观测的降水天气过程进行分析,结果表明:建立的模糊逻辑算法对云内水凝物粒子的相态识别分类合理. 相似文献
13.
应用MM5中尺度模式,选用4种不同云微物理方案(Dudhia简单冰相方案、Reisner混合相方案、Reisner2霰方案和Schultz微物理方案),对2002年7月12-13日祁连山区降水过程进行了数值模拟试验。模拟结果的对比分析表明,不同云微物理方案在祁连山区降水的模拟中对降水落区的模拟均偏南;除Reisner2霰方案外,其他3种方案对降水中心落点的模拟影响不大,降水中心强度对云微物理方案不敏感;显式降水和参数化降水对云微物理方案有不同程度的依赖性;云微物理过程通过影响动力条件发生发展的时间和强度,来影响强降水发生的时间和强度。通过各云微物理参数的分析发现,各物理过程中微物理参数参与降水的过程不同:对Dudhia简单冰相方案来说,雨水和云水是形成降水的主要过程;Reisner混合相方案中降水的形成主要是由于雨水、云水、雪和霰的碰并过程,冰晶的碰并相对较弱;在Reisner2霰方案中,雨水、云水、冰晶、雪和霰均参与碰并碰冻过程;Schultz微物理方案中冰晶、雪和霰的碰并过程更为重要。 相似文献
14.
东北冷涡中尺度云系降水机制研究 II: 数值模拟 总被引:1,自引:1,他引:0
在利用卫星、雷达和机载PMS(粒子测量系统)等观测资料对2003年7月8日东北冷涡积层混合云系的降水形成机制分析的基础上,将观测分析与数值模拟研究相结合,用中尺度数值模式对积层混合云系做数值模拟,并结合观测资料进一步分析了积层混合云系的微物理结构、粒子形成过程和降水形成机制,获得如下结果:(1)混合云中对流云具有分层的微物理结构.冰晶含水量最大值出现的高度最高,其次由高到低的排序是雪、云水、霰和雨;雨水主要出现在云的暖区;各种粒子中以雨水含水量最高,其次是霰.对流云体生命期较长,微物理结构基本稳定.(2)粒子形成增长过程有差异.冰晶通过凝华过程增长.雪主要来源于冰晶,产生后主要通过撞冻、收集冰晶和凝华过程增长,其中撞冻过冷云水增长对雪质量贡献最大,其产生率极大值高度与过冷云水相当.丰富的过冷云水,给雪的撞冻增长提供了有利条件.在高、中和低层雪的形成有着不同的机制,高层雪收集冰晶长大后,下落到低层又以雪撞冻过冷云水的结淞增长为主要过程.霰主要由雨滴冻结和雪的转化产生,过冷雨滴与冰晶接触冻结成霰;过冷雨滴收集雪,雪随着雨滴的冻结而转化成霰.因此霰的产生与过冷雨滴关系极大.霰主要撞冻云水、收集雪和冰晶增长,其中撞冻是霰的重要增长过程.雨水主要由霰的融化形成,降水主要是由冷云过程产生的.在过冷层,霰撞冻增长占优势.云上部的冰晶和雪对云的中部具有播撒作用,过冷层中存在丰富的过冷水,对冰相粒子的撞冻增长有利.对云水消耗的分析表明,雨滴对云滴的收集、霰和雪对云水的撞冻增长是消耗云水的主要过程.(3)从各种粒子的形成和增长过程可以看出,大部分雨水由霰融化形成,暖云过程贡献要小得多.可见,降水主要是由冷云过程产生的,这与观测分析的结果一致. 相似文献
15.
大气动力学中"平流输送"是非常重要的宏观动力学过程,云凝结物的平流输送与降水云系的发展演变密切相关,它把宏观动力过程与各种云凝结物粒子的时空演变联系起来,云凝结物的平流输送可以增加或减少局地大气中云凝结物的含量,改变云凝结物的空间分布状况,影响云凝结物的微观物理过程,进而促进或抑制降水云系的发展演变.本文在数值模拟研究中.通过改变云凝结物平流输送的状况来研究宏观动力过程对云微观物理过程的影响,因而利用ARPS模式开展3个分别排除云凝结物水平平流输送、垂直平流输送和三维平流输送的敏感试验,进行关于云凝结物平流输送对降水云系发展演变影响的敏感性数值模拟研究.结果表明,云凝结物的平流输送对水汽比湿的影响很小.云凝结物的三维平流输送有利于增加降水云系中雪和霰的混合比含量,抑制云水、雨水和云冰混合比含量的增长.云凝结物的水平平流输送可以降低降水云系中云水和雨水的混合比含量,增加云冰和雪的混合比含量;云凝结物垂直平流输送的作用是增加降水云系中雨水、雪和霰的混合比含量,减少云与冰混合比含量.云凝结物三维平流输送效应的分析表明,云凝结物的三维平流输送主要通过调整云凝结物的微物理过程源汇项以及降水粒子(雨水、雪和霰)的下落末速项来改变降水云系中云凝结物的垂直结构;另外,雪的三维平流输送对雪本身的分布也有一定影响. 相似文献
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为探究贵州省威宁地区雹暴过程中雹胚粒子的演变特征,本文在对X波段双线偏振雷达数据经过退折叠、滤波、自适应衰减订正后,运用Barnes插值方法对偏振参量进行插值,并结合模糊逻辑算法进行水成物粒子识别,然后对威宁县的两次典型雹暴过程进行了系统的分析,得到以下结论:(1)两次过程中高密度霰的来源均为冰晶聚合物和冻滴,低密度霰粒子的来源均为冰晶粒子;单体雹暴过程中高密度霰粒子对冰雹的产生贡献最大,多单体雹暴过程中低密度霰粒子对冰雹的产生贡献最大。(2)多单体雹暴中,衰减单体的高空辐合以及低空辐散对发展单体的雹胚形成有促进作用。(3)单体雹暴降雹前:低密度霰粒子数量近乎不变;由于冰晶聚合物增多使得消耗过冷水粒子速度加快,导致过冷水粒子减少,而且有部分高密度霰粒子坠落至地面,导致高密度霰粒子数量减少,每分钟减少的距离库数为10;降雹时:高密度霰粒子淞附过冷水粒子增长形成冰雹,导致高密度霰粒子减少,每分钟减少的距离库数为12.1;而在“贝吉龙过程”(即Wegener-Bergeron-Findeisen过程,简称WBF)以及冰晶聚合物的淞附作用下,低密度霰粒子迅速增多,每分钟增加的距离库数为36;降雹后:低密度霰粒子坠落,数量快速减少,每分钟减少的距离库数为36.6;低密度霰粒子在下降过程中淞附过冷水、冰晶聚合物等粒子转化成高密度霰粒子,导致高密度霰粒子总量几乎不变,每分钟增加的距离库数为2。(4)多单体雹暴降雹前与单体雹暴类似,不同的是在消散单体的促进作用下,发展单体的发展速度、雹胚数量、回波强度均高于单体雹暴;降雹时:低密度霰粒子在下落过程中淞附过冷水滴增长形成冰雹,导致数量迅速减少,每分钟减少的距离库数为62.6;高密度霰粒子数量增加,每分钟增的距离库数为16.5;由成熟到降雹的时间比单体雹暴长15分钟左右;降雹后与单体雹暴类似。(5)通过对威宁地区雹暴机制的分析,分别建立了单体雹暴、多单体雹暴的概念模型。本文针对两种典型雹暴的各个过程中雹胚的演变特征研究得到了初步结果,这对于雹暴预警、预报以及人工消雹具有较高的应用价值。 相似文献
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为了更好的基于X波段双线偏振雷达,开展强对流天气的监测与预警、云内微物理过程等的应用研究,本文对该雷达的质量控制方法及云内水成物粒子识别方法进行了较系统的比较分析,得到的主要结论如下:(1) 采用径向连续性检查的方法对差分传播相移进行相位退折叠后,其连续性明显提升。对差分传播相移进行滤波处理,其小波去噪明显优于滑动平均和中值滤波。经自适应约束算法进行衰减订正后,其值与S波段雷达差异减小,且强回波区回波强度增幅比弱回波区明显,可达5dBZ。(2) 基于模糊逻辑算法能较好地解决阈值重叠问题,有效识别毛毛雨(DR)、雨(RA)、干雪(DS)、干冰晶(DC)、湿雪(WS)、干霰(DG)、湿霰(WG)、小冰雹(SH)、大冰雹(LH)和雨夹雹(RH)10种水成物粒子。此外,环境温度的引入对解决0℃层以下液态与冰相粒子混合,以及其他粒子分布不合理的现象有较明显的帮助。至此,建立了一套基于检查径向连续性-小波去噪-自适应约束算法-加入环境温度的模糊逻辑算法的质量控制及粒子识别方法。 相似文献
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为深入了解呼和浩特地区降雨和降雪过程中降水粒子谱的分布特征,利用Parsivel观测数据并结合常规观测资料,对2017—2019年发生在呼和浩特地区的8次降雨过程和10次降雪过程的降水粒子谱进行分析。结果表明:雨滴谱和雪花谱都比较符合Gamma分布,平均降雪谱的峰值直径、峰值浓度以及最大直径均大于平均雨滴谱,降水强度相近时,降雪个例的粒子数浓度和尺度参数均大于降雨个例;Gamma拟合的形状因子(μ)和斜率参数(Λ)在降雨和降雪过程中均满足二项式关系,但雪花尺度的变化范围较大导致降雪的μ-Λ拟合效果略差;雪花的下落速度小于雨滴的下落速度,降雨过程中雨滴的下落速度多集中于2~5 m·s-1,而降雪过程雪花的下落速度多集中于0.5~2 m·s-1,呼和浩特地区降雪的雪花下落速度更接近于未结凇或干雪的情况。 相似文献
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Based on a successful simulation of Typhoon Haikui (2012) using WRF (Weather Research & Forecasting) model with the WSM6 microphysics scheme, a high-resolution model output is presented and analyzed in this study. To understand the cause of the average gridded rainfall stability and increases after Haikui’s landfall, this research examines the fields of the physical terms as well as the vapor and condensate distributions and budgets, including their respective changes during the landing process. The environmental vapor supply following the typhoon landfall has no significant difference from that before the landfall. Although Haikui’s secondary circulation weakens, this circulation is not conducive to typhoon rainfall stability or increases, although the amounts of the six kinds of water substances (vapor, cloud water, cloud ice, snow, rain, and graupel) increase in the outer region of the typhoon. This reallocation of water substances is essential to the maintenance of rainfall. The six kinds of water substances are classified as vapor, clouds (cloud water and ice) and precipitation (snow, rain, and graupel) to diagnose their budgets. This sorting reveals that the changes in the budgets of different kinds of water substances, caused by the reduced mixing ratios of snow and ice, the water consumption of clouds, and the transformation of graupel, induce increased concentrations of precipitation fallout, which occur closer to the ground after typhoon landfall. In addition, this pattern is an efficient way for Haikui’s rainfall to remain stable after its landfall. Thus, the allocation and budget analyses of water substances are meaningful when forecasting the typhoon rainfall stability and increases after landfall. 相似文献